Docetaxel
Based on 165 publication(s) in Google Scholar
Docetaxel (RP-56976) is a microtubule depolymerization inhibitor, with an IC50 of 0.2 μM. Docetaxel attenuates the effects of bcl-2 and bcl-xL gene expression. Docetaxel arrests the cell cycle at G2/M and leads to cell apoptosis. Docetaxel has anti-cancer activity.
For research use only. We do not sell to patients.
- Purity: 99.94%
- CAS No.: 114977-28-5
- Formula: C43H53NO14
- Molecular Weight:807.88
-
Storage:
4°C, protect from light
* In solvent : -80°C, 1 year; -20°C, 6 months (protect from light)
Publications Citing Use of MedChemExpress (MCE) Docetaxel
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- Oncogene. 2026 Jan;45(2):278-294. [Abstract]
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- Cell Biosci. 2023 Nov 25;13(1):215. [Abstract]
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- Int J Pharm. 2023 Apr 5:636:122846. [Abstract]
- Life Sci. 2026 Mar 15:389:124236. [Abstract]
- Cancer Immunol Immunother. 2025 Nov 18;74(12):377. [Abstract]
- Microchem J. 2025 Oct 15;218:115702.
- J Pharm Investig. 2025 Sep 19.
- Life Sci. 2025 Apr 17:372:123646. [Abstract]
- Life Sci. 2021 Jan 1;264:118674. [Abstract]
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- Biol Direct. 2024 Sep 11;19(1):79. [Abstract]
- Int J Mol Sci. 2022 Nov 19;23(22):14385. [Abstract]
- Int J Mol Sci. 2019 Jan; 20(1): 28. [Abstract]
- Pharmaceuticals (Basel). 2024 Apr 29;17(5):569. [Abstract]
- Int J Cancer. 2024 Jul 15;155(2):324-338. [Abstract]
- Mol Oncol. 2026 Jun 5. [Abstract]
- Cell Rep Methods. 2023 Oct 23;3(10):100599. [Abstract]
- BJU Int. 2025 Nov 3. [Abstract]
- Clin Epigenetics. 2025 May 6;17(1):77. [Abstract]
- Cancers. 2020 Jul 28;12(8):2092. [Abstract]
- Pharm Res. 2025 Nov 18. [Abstract]
- ACS Omega. 2024 Feb 28;9(10):11870-11882. [Abstract]
- Cancer Sci. 2024 Feb;115(2):412-426. [Abstract]
- J Liposome Res. 2020 Jun;30(2):182-196. [Abstract]
- J Mol Med (Berl). 2026 Mar 19;104(1):53. [Abstract]
- J Cell Mol Med. 2025 Dec;29(23):e70972. [Abstract]
- FEBS J. 2024 Jul;291(14):3249-3266. [Abstract]
- J Cell Mol Med. 2022 Apr;26(8):2392-2403. [Abstract]
- iScience. 2025 Oct 30;28(12):113908. [Abstract]
- iScience. 2025 Sep 9;28(10):113520. [Abstract]
- Transl Oncol. 2023 Sep:35:101723. [Abstract]
- Sci Rep. 2025 Jul 4;15(1):23847. [Abstract]
- Sci Rep. 2024 Mar 27;14(1):7303. [Abstract]
- Sci Rep. 2023 Jun 3;13(1):9043. [Abstract]
- J Biol Chem. 2021 Jan-Jun:296:100276. [Abstract]
- Biochim Biophys Acta Mol Cell Res. 2025 Jul 31;1872(8):120029. [Abstract]
- PLoS Genet. 2025 Mar 31;21(3):e1011652. [Abstract]
- Transl Lung Cancer Res. 2024 Oct 31;13(10):2698-2712. [Abstract]
- Mol Med Rep. 2020 Jul;22(1):67-76. [Abstract]
- Eur J Med Res. 2025 Aug 4;30(1):704. [Abstract]
- BMC Cancer. 2025 Jul 1;25(1):1042. [Abstract]
- Chem Biol Drug Des. 2025 Feb;105(2):e70053. [Abstract]
- Front Oncol. 2019 Dec 19;9:1398. [Abstract]
- Int J Med Sci. 2026 Jan 1;23(1):161-176. [Abstract]
- Pathol Res Pract. 2025 Sep:273:156138. [Abstract]
- Mol Carcinog. 2025 Jan;64(1):192-208. [Abstract]
- J Microencapsul. 2020 Dec;37(8):543-556. [Abstract]
- Materials. 2020 Mar 2;13(5):1099. [Abstract]
- J Microencapsul. 2019 Sep;36(6):552-565. [Abstract]
- Front Biosci (Landmark Ed). 2025 Feb 20;30(2):25522. [Abstract]
- Micromachines. 2026 Mar 9;17(3):332. [Abstract]
- Breast Cancer Res Treat. 2023 Jul;200(2):193-201. [Abstract]
- Arch Biochem Biophys. 2023 Mar 15:737:109551. [Abstract]
- Breast Cancer. 2024 Dec 20:16:993-1004. [Abstract]
- Discov Oncol. 2023 May 27;14(1):82. [Abstract]
- Reprod Toxicol. 2026 Jan:139:109110. [Abstract]
- J Cancer Res Clin Oncol. 2022 Dec;148(12):3511-3520. [Abstract]
- J Appl Polym Sci. 18 February 2022.
- PLoS One. 2026 Jan 21;21(1):e0341445. [Abstract]
- Clin Transl Oncol. 2022 Nov;24(11):2231-2240. [Abstract]
- Pharm Dev Technol. 2021 Oct;26(8):910-921. [Abstract]
- Biochem Biophys Rep. 2024 Jan 14:37:101639. [Abstract]
- Anticancer Drugs. 2022 Oct 1;33(9):871-882. [Abstract]
- Oncol Lett. 2022 Mar;23(3):101. [Abstract]
- Eur J Histochem. 2022 Oct 25;66(4). [Abstract]
- Biomed Chromatogr. 2022 Sep;36(9):e5417. [Abstract]
- Mol Biol Res Commun. 2022 Mar;11(1):11-20. [Abstract]
- Int J Clin Exp Pathol. 2017;10(3):3033-3042.
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- bioRxiv. 2026 Feb 4:2026.02.02.701385. [Abstract]
- SSRN. 2025 Dec 26.
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- Res Sq. 2025 May 16:rs.3.rs-6590535. [Abstract]
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- bioRxiv. 2025 Jan 24:2025.01.22.632572. [Abstract]
- University of Beirut. 2025.
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- bioRxiv. 2023 Nov 1:2023.10.29.564598. [Abstract]
- University of Adelaide. 2023 Jan.
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- Patent. US20230145200A1.
- Research Square Print. November 29th, 2022.
- Research Square Print. November 29th, 2022.
- Oxid Med Cell Longev. 2022 May 24:2022:4930643. [Abstract]
- J Oncol. 2022 Mar 10:2022:9055954. [Abstract]
- Seoul National University. Molecular medicine and Biopharmaceutical sciences. 2021 Dec.
- Nanotheranostics. 2021 Jan 1;5(2):143-154. [Abstract]
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Cell Proliferation/Viability Assay
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Apoptosis Analysis
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Cell Proliferation/Viability Assay
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Cell Proliferation/Viability Assay
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WB
All Endogenous Metabolite Isoforms
More
Biological Activity
Microtubule[1]
|
Cell Line
|
Type | Value | Description | References |
|---|---|---|---|---|
| 1A9 | IC50 |
3.55 nM
Compound: 8
|
Cytotoxicity against human 1A9 cells
Cytotoxicity against human 1A9 cells
|
[PMID: 28850227] |
| A2780 | IC50 |
11.2 nM
Compound: 1b
|
Cytotoxicity against human A2780 cells assessed as decrease in cell viability after 48 hrs by MTT assay
Cytotoxicity against human A2780 cells assessed as decrease in cell viability after 48 hrs by MTT assay
|
[PMID: 29359935] |
| A2780 | IC50 |
2.9 nM
Compound: 1b
|
Antiproliferative activity against human A2780 cells assessed as inhibition of cell viability by MTT assay
Antiproliferative activity against human A2780 cells assessed as inhibition of cell viability by MTT assay
|
[PMID: 37490800] |
| A2780 | IC50 |
3 nM
Compound: Docetaxel
|
Antiproliferative activity against human A2780 cells assessed as inhibition of cell growth incubated for 48 hrs by MTT assay
Antiproliferative activity against human A2780 cells assessed as inhibition of cell growth incubated for 48 hrs by MTT assay
|
[PMID: 38294341] |
| A-375 | IC50 |
4.5 nM
Compound: DT
|
Antiproliferative activity against human A-375 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human A-375 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| A-427 | GI50 |
4.4 nM
Compound: Docetaxel
|
Growth inhibition of human A-427 cells measured after 72 to 96 hrs by cell-titer glo assay
Growth inhibition of human A-427 cells measured after 72 to 96 hrs by cell-titer glo assay
|
[PMID: 39102508] |
| A549 | IC50 |
3.41 μM
Compound: DTX
|
Cytotoxicity against human A-549 cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
Cytotoxicity against human A-549 cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
|
[PMID: 26791014] |
| A549 | IC50 |
734 nM
Compound: Docetaxel
|
Cytotoxicity against human paclitaxl resistant A549 cells after 72 hrs by sulforhodamine B assay
Cytotoxicity against human paclitaxl resistant A549 cells after 72 hrs by sulforhodamine B assay
|
[PMID: 30036834] |
| A549 | IC50 |
9.8 nM
Compound: Docetaxel
|
Cytotoxicity against human A549 cells after 72 hrs by sulforhodamine B assay
Cytotoxicity against human A549 cells after 72 hrs by sulforhodamine B assay
|
[PMID: 30036834] |
| A549 | IC50 |
19.5 nM
Compound: Docetaxel
|
Cytotoxicity against human A549 cells assessed as inhibition of cell growth measured after 72 hrs by CCK-8 assay
Cytotoxicity against human A549 cells assessed as inhibition of cell growth measured after 72 hrs by CCK-8 assay
|
[PMID: 34058663] |
| A549 | IC50 |
18 nM
Compound: Docetaxel
|
Antiproliferative activity against human A549 cells assessed as inhibition of cell growth incubated for 48 hrs by MTT assay
Antiproliferative activity against human A549 cells assessed as inhibition of cell growth incubated for 48 hrs by MTT assay
|
[PMID: 38294341] |
| A549/TR | IC50 |
836.2 nM
Compound: Docetaxel
|
Cytotoxicity against human A549/Taxol cells assessed as inhibition of cell growth measured after 72 hrs by CCK-8 assay
Cytotoxicity against human A549/Taxol cells assessed as inhibition of cell growth measured after 72 hrs by CCK-8 assay
|
[PMID: 34058663] |
| BT-474 | IC50 |
21.4 nM
Compound: DT
|
Antiproliferative activity against human BT-474 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human BT-474 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| CAKI-1 | IC50 |
2.7 nM
Compound: DT
|
Antiproliferative activity against human CAKI-1 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human CAKI-1 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| Calu-1 | IC50 |
0.4 nM
Compound: Docetaxel
|
Antiproliferative activity against human Calu1 cells after 72 hrs by MTT assay
Antiproliferative activity against human Calu1 cells after 72 hrs by MTT assay
|
[PMID: 30629433] |
| CAPAN-1 | IC50 |
0.95 μM
Compound: Docetaxel
|
Cytostatic activity against human Capan1 cells
Cytostatic activity against human Capan1 cells
|
[PMID: 30738653] |
| CAPAN-1 | IC50 |
0.019 μM
Compound: Docetaxel
|
Antiproliferative activity against human Capan1 cells
Antiproliferative activity against human Capan1 cells
|
[PMID: 31005446] |
| CAPAN-1 | IC50 |
0.025 μM
Compound: Docetaxel
|
Antiproliferative activity against human Capan1 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
Antiproliferative activity against human Capan1 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
|
[PMID: 32832030] |
| CAPAN-1 | IC50 |
0.0088 μM
Compound: Docetaxel
|
Antiproliferative activity against human CAPAN-1 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
Antiproliferative activity against human CAPAN-1 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
|
[PMID: 33248847] |
| CCD-18Co | IC50 |
116.54 μM
Compound: DTX
|
Cytotoxicity against human CCD-18Co cells assessed as reduction in cell viability after 72 hrs by MTT assay
Cytotoxicity against human CCD-18Co cells assessed as reduction in cell viability after 72 hrs by MTT assay
|
[PMID: 32203786] |
| CWR22R | GI50 |
6 ng/mL
Compound: Dxtl
|
Growth inhibition of human 22Rv1 cells incubated for 48 hrs by MTS assay
Growth inhibition of human 22Rv1 cells incubated for 48 hrs by MTS assay
|
[PMID: 31767266] |
| CWR22R | IC50 |
2.1 nM
Compound: DTX
|
Cytotoxicity against human 22Rv1 cells assessed as reduction in cell viability
Cytotoxicity against human 22Rv1 cells assessed as reduction in cell viability
|
[PMID: 34464875] |
| CWR22R | CC50 |
1 nM
Compound: Docetaxel
|
Cytotoxicity against human 22Rv1 cells assessed as reduction in cell viability measured after 72 hrs by MTT assay
Cytotoxicity against human 22Rv1 cells assessed as reduction in cell viability measured after 72 hrs by MTT assay
|
[PMID: 34717125] |
| CWR22R | CC50 |
3.3 nM
Compound: Docetaxel
|
Cytotoxicity against human 22Rv1 cells expressing PMSA measured using MTT assay
Cytotoxicity against human 22Rv1 cells expressing PMSA measured using MTT assay
|
[PMID: 34797052] |
| DU-145 | IC50 |
0.026 μM
Compound: Docetaxel
|
Cytotoxicity against human DU145 cells assessed as cell growth inhibition after 24 hrs by MTT assay
Cytotoxicity against human DU145 cells assessed as cell growth inhibition after 24 hrs by MTT assay
|
[PMID: 27077446] |
| DU-145 | CC50 |
0.81 μM
Compound: Docetaxel
|
Cytotoxic activity in human DU145 cells by sulforhodamine B assay
Cytotoxic activity in human DU145 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| DU-145 | IC50 |
0.01 μM
Compound: Docetaxel
|
Antiproliferative activity in human DU145 cells by sulforhodamine B assay
Antiproliferative activity in human DU145 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| DU-145 | IC50 |
0.1 nM
Compound: Docetaxel
|
Cytotoxicity against human DU145 cells after 72 hrs by MTS assay
Cytotoxicity against human DU145 cells after 72 hrs by MTS assay
|
[PMID: 29406710] |
| DU-145 | IC50 |
0.0012 μM
Compound: Docetaxel
|
Antiproliferative activity against docetaxel-sensitive human DU145 cells after 3 days by WST-1 assay
Antiproliferative activity against docetaxel-sensitive human DU145 cells after 3 days by WST-1 assay
|
[PMID: 29784275] |
| DU-145 | IC50 |
0.1 nM
Compound: Docetaxel
|
Antiproliferative activity against human DU145 cells
Antiproliferative activity against human DU145 cells
|
[PMID: 31251599] |
| DU-145 | IC50 |
4.95 nM
Compound: Docetaxel
|
Cytotoxicity against human DU-145 cells assessed as reduction in cell viability after 48 hrs by MTT assay
Cytotoxicity against human DU-145 cells assessed as reduction in cell viability after 48 hrs by MTT assay
|
[PMID: 31945665] |
| DU-145 | IC50 |
43.25 nM
Compound: Docetaxel
|
Cytotoxicity against human DU-145 cells over expressing CYP1B1 assessed as reduction in cell viability after 48 hrs by MTT assay
Cytotoxicity against human DU-145 cells over expressing CYP1B1 assessed as reduction in cell viability after 48 hrs by MTT assay
|
[PMID: 31945665] |
| DU-145 | IC50 |
0.0012 μM
Compound: Docetaxel
|
Antiproliferative activity against androgen-insensitive human DU-145 cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
Antiproliferative activity against androgen-insensitive human DU-145 cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
|
[PMID: 33753258] |
| DU-145 | IC50 |
8.58 μM
Compound: Docetaxel
|
Antiproliferative activity against Docetaxel-resistant human DU-145 cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
Antiproliferative activity against Docetaxel-resistant human DU-145 cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
|
[PMID: 33753258] |
| DU-145 | IC50 |
5 nM
Compound: Docetaxel
|
Cytotoxicity against human DU-145 cells
Cytotoxicity against human DU-145 cells
|
[PMID: 33951490] |
| DU-145 | IC50 |
5 μg/mL
Compound: Docetaxel
|
Cytotoxicity against human DU-145 cells assessed as inhibition of cell growth by MTT assay
Cytotoxicity against human DU-145 cells assessed as inhibition of cell growth by MTT assay
|
[PMID: 34000484] |
| DU-145 | EC50 |
6.05 nM
Compound: Docetaxel
|
Antiproliferative activity against human DU-145 cells assessed as reduction in cell viability by MTT assay
Antiproliferative activity against human DU-145 cells assessed as reduction in cell viability by MTT assay
|
[PMID: 37290495] |
| DU-145 | IC50 |
0.04 μM
Compound: PC
|
Cytotoxicity against human DU-145 cells assessed as reduction in cell viability after 24 hrs by MTT assay
Cytotoxicity against human DU-145 cells assessed as reduction in cell viability after 24 hrs by MTT assay
|
[PMID: 39102454] |
| DU-145 | IC50 |
5.4 μM
Compound: Docetaxel
|
Cytotoxicity against human DU-145 cells assessed as cell death measured by MTT assay
Cytotoxicity against human DU-145 cells assessed as cell death measured by MTT assay
|
[PMID: 39137365] |
| HCT-116 | IC50 |
129.8 nM
Compound: Docetaxel
|
Cytotoxicity against human HCT116 cells after 48 hrs by MTT assay
Cytotoxicity against human HCT116 cells after 48 hrs by MTT assay
|
[PMID: 28972762] |
| HCT-116 | IC50 |
0.004 μM
Compound: Docetaxel
|
Antiproliferative activity against human HCT116 cells
Antiproliferative activity against human HCT116 cells
|
[PMID: 31005446] |
| HCT-116 | IC50 |
3.5 nM
Compound: DTX
|
Cytotoxicity against human HCT-116 cells assessed as reduction in cell viability after 48 hrs by MTT assay
Cytotoxicity against human HCT-116 cells assessed as reduction in cell viability after 48 hrs by MTT assay
|
[PMID: 32203786] |
| HCT-116 | IC50 |
3.5 x 10-3 μM
Compound: DTX
|
Cytotoxicity against human HCT-116 cells assessed as reduction in cell viability after 48 hrs by MTT assay
Cytotoxicity against human HCT-116 cells assessed as reduction in cell viability after 48 hrs by MTT assay
|
[PMID: 32203786] |
| HCT-116 | IC50 |
0.007 μM
Compound: Docetaxel
|
Antiproliferative activity against human HCT116 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
Antiproliferative activity against human HCT116 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
|
[PMID: 32832030] |
| HCT-116 | IC50 |
4 nM
Compound: Docetaxel
|
Anticancer activity against human HCT-116 cells assessed as inhibition of cell proliferation measured after 72 hrs by MTT assay
Anticancer activity against human HCT-116 cells assessed as inhibition of cell proliferation measured after 72 hrs by MTT assay
|
[PMID: 33221063] |
| HCT-116 | IC50 |
0.0017 μM
Compound: Docetaxel
|
Antiproliferative activity against human HCT-116 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
Antiproliferative activity against human HCT-116 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
|
[PMID: 33248847] |
| HEK293 | CC50 |
1.6 μM
Compound: Docetaxel
|
Cytotoxic activity in HEK293 cells by sulforhodamine B assay
Cytotoxic activity in HEK293 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| HEK293 | IC50 |
0.11 μM
Compound: Docetaxel
|
Antiproliferative activity in HEK293 cells by sulforhodamine B assay
Antiproliferative activity in HEK293 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| HEK293 | IC50 |
19.7 μM
Compound: DTX
|
Cytotoxicity against HEK293 cells assessed as reduction in cell viability after 48 hrs by MTT assay
Cytotoxicity against HEK293 cells assessed as reduction in cell viability after 48 hrs by MTT assay
|
[PMID: 32203786] |
| HEK293 | IC50 |
7.5 nM
Compound: DT
|
Antiproliferative activity against human HEK293 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human HEK293 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| HeLa | IC50 |
3.23 μM
Compound: DTX
|
Cytotoxicity against human HeLa cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
Cytotoxicity against human HeLa cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
|
[PMID: 26791014] |
| HeLa | IC50 |
0.061 μM
Compound: Docetaxel
|
Cytotoxicity against human HeLa cells assessed as cell growth inhibition after 24 hrs by MTT assay
Cytotoxicity against human HeLa cells assessed as cell growth inhibition after 24 hrs by MTT assay
|
[PMID: 27077446] |
| HeLa | IC50 |
13 μM
Compound: Docetaxel
|
Growth inhibition of human HeLa cells over expressing beta3-tubulin measured after 96 hrs by sulforhodamine B assay
Growth inhibition of human HeLa cells over expressing beta3-tubulin measured after 96 hrs by sulforhodamine B assay
|
[PMID: 27894589] |
| HeLa | IC50 |
4 μM
Compound: Docetaxel
|
Growth inhibition of human HeLa cells measured after 96 hrs by sulforhodamine B assay
Growth inhibition of human HeLa cells measured after 96 hrs by sulforhodamine B assay
|
[PMID: 27894589] |
| HeLa | CC50 |
0.09 μM
Compound: Docetaxel
|
Cytotoxic activity in human HeLa cells by sulforhodamine B assay
Cytotoxic activity in human HeLa cells by sulforhodamine B assay
|
[PMID: 29120172] |
| HeLa | IC50 |
0.07 μM
Compound: Docetaxel
|
Antiproliferative activity in human HeLa cells by sulforhodamine B assay
Antiproliferative activity in human HeLa cells by sulforhodamine B assay
|
[PMID: 29120172] |
| HeLa | IC50 |
3.5 nM
Compound: 1b
|
Cytotoxicity against human HeLa cells assessed as decrease in cell viability after 48 hrs by MTT assay
Cytotoxicity against human HeLa cells assessed as decrease in cell viability after 48 hrs by MTT assay
|
[PMID: 29359935] |
| HeLa | IC50 |
0.3 nM
Compound: Docetaxel
|
Antiproliferative activity against human HeLa cells after 72 hrs by MTT assay
Antiproliferative activity against human HeLa cells after 72 hrs by MTT assay
|
[PMID: 30629433] |
| HeLa | IC50 |
0.68 μM
Compound: Docetaxel
|
Cytotoxicity against human HeLa cells assessed as inhibition of cell growth and measured after 72 hrs resazurin reduction assay
Cytotoxicity against human HeLa cells assessed as inhibition of cell growth and measured after 72 hrs resazurin reduction assay
|
[PMID: 36126331] |
| HeLa | IC50 |
0.7 nM
Compound: 1b
|
Antiproliferative activity against human HeLa cells assessed as inhibition of cell viability by MTT assay
Antiproliferative activity against human HeLa cells assessed as inhibition of cell viability by MTT assay
|
[PMID: 37490800] |
| HeLa | IC50 |
13 nM
Compound: 1b
|
Antiproliferative activity against human HeLa cells overexpressing betaIII-tubulin assessed as inhibition of cell viability by MTT assay
Antiproliferative activity against human HeLa cells overexpressing betaIII-tubulin assessed as inhibition of cell viability by MTT assay
|
[PMID: 37490800] |
| HeLa | IC50 |
0.7 nM
Compound: Docetaxel
|
Antiproliferative activity against human HeLa cells assessed as inhibition of cell growth incubated for 48 hrs by MTT assay
Antiproliferative activity against human HeLa cells assessed as inhibition of cell growth incubated for 48 hrs by MTT assay
|
[PMID: 38294341] |
| HeLa | IC50 |
13 nM
Compound: Docetaxel
|
Antiproliferative activity against human HeLa cells expressing tubulin betaIII assessed as inhibition of cell growth incubated for 48 hrs by MTT assay
Antiproliferative activity against human HeLa cells expressing tubulin betaIII assessed as inhibition of cell growth incubated for 48 hrs by MTT assay
|
[PMID: 38294341] |
| HeLa | IC50 |
1 nM
Compound: DT
|
Antiproliferative activity against human HeLa cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human HeLa cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| HEp-2 | CC50 |
0.06 μM
Compound: Docetaxel
|
Cytotoxic activity in human Hep2 cells by sulforhodamine B assay
Cytotoxic activity in human Hep2 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| HEp-2 | IC50 |
0.06 μM
Compound: Docetaxel
|
Antiproliferative activity in human Hep2 cells by sulforhodamine B assay
Antiproliferative activity in human Hep2 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| HepG2 | IC50 |
2.86 μM
Compound: DTX
|
Cytotoxicity against human HepG2 cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
Cytotoxicity against human HepG2 cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
|
[PMID: 26791014] |
| HepG2 | IC50 |
8.3 μM
Compound: Docetaxel
|
Cytotoxicity against human HepG2 cells assessed as reduction in cell viability measured after 48 hrs by MTT assay
Cytotoxicity against human HepG2 cells assessed as reduction in cell viability measured after 48 hrs by MTT assay
|
[PMID: 27617953] |
| HEY | IC50 |
0.86 μM
Compound: Taxotere
|
Cytotoxicity against human HEY cells after 72 to 120 hrs by sulforhodamine B assay
Cytotoxicity against human HEY cells after 72 to 120 hrs by sulforhodamine B assay
|
[PMID: 29517223] |
| HL-60 | IC50 |
1.94 μM
Compound: Docetaxel
|
Cytostatic activity against human HL60 cells
Cytostatic activity against human HL60 cells
|
[PMID: 30738653] |
| HL-60 | IC50 |
0.047 μM
Compound: Docetaxel
|
Antiproliferative activity against human HL60 cells
Antiproliferative activity against human HL60 cells
|
[PMID: 31005446] |
| HL-60 | IC50 |
0.05 μM
Compound: Docetaxel
|
Antiproliferative activity against human HL60 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
Antiproliferative activity against human HL60 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
|
[PMID: 32832030] |
| HL-60 | IC50 |
0.0072 μM
Compound: Docetaxel
|
Antiproliferative activity against human HL-60 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
Antiproliferative activity against human HL-60 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
|
[PMID: 33248847] |
| HT-1080 | IC50 |
1.5 nM
Compound: DT
|
Antiproliferative activity against human HT-1080 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human HT-1080 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| K562 | IC50 |
0.039 μM
Compound: Docetaxel
|
Cytotoxicity against human K562 cells assessed as cell growth inhibition after 24 hrs by MTT assay
Cytotoxicity against human K562 cells assessed as cell growth inhibition after 24 hrs by MTT assay
|
[PMID: 27077446] |
| K562 | IC50 |
3 μM
Compound: Docetaxel
|
Cytostatic activity against human K562 cells
Cytostatic activity against human K562 cells
|
[PMID: 30738653] |
| K562 | IC50 |
0.016 μM
Compound: Docetaxel
|
Antiproliferative activity against human K562 cells
Antiproliferative activity against human K562 cells
|
[PMID: 31005446] |
| K562 | IC50 |
0.009 μM
Compound: Docetaxel
|
Antiproliferative activity against human K562 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
Antiproliferative activity against human K562 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
|
[PMID: 32832030] |
| K562 | IC50 |
0.0152 μM
Compound: Docetaxel
|
Antiproliferative activity against human K562 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
Antiproliferative activity against human K562 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
|
[PMID: 33248847] |
| KB | GI50 |
0.13 nM
Compound: Docetaxel
|
Growth inhibition of human KB cells after 72 hrs by MTS assay
Growth inhibition of human KB cells after 72 hrs by MTS assay
|
[PMID: 26778612] |
| KB | CC50 |
0.18 μM
Compound: Docetaxel
|
Cytotoxic activity in human KB cells by sulforhodamine B assay
Cytotoxic activity in human KB cells by sulforhodamine B assay
|
[PMID: 29120172] |
| KB | IC50 |
0.05 μM
Compound: Docetaxel
|
Antiproliferative activity in human KB cells by sulforhodamine B assay
Antiproliferative activity in human KB cells by sulforhodamine B assay
|
[PMID: 29120172] |
| KB | IC50 |
7.3 nM
Compound: Docetaxel
|
Cytotoxicity against human KB cells after 72 hrs by sulforhodamine B assay
Cytotoxicity against human KB cells after 72 hrs by sulforhodamine B assay
|
[PMID: 30036834] |
| KB | IC50 |
38 nM
Compound: Docetaxel
|
Cytotoxicity against human KB cells by MTT assay
Cytotoxicity against human KB cells by MTT assay
|
[PMID: 30407813] |
| KB | IC50 |
17.5 nM
Compound: Docetaxel
|
Cytotoxicity against human KB cells assessed as inhibition of cell growth measured after 72 hrs by CCK-8 assay
Cytotoxicity against human KB cells assessed as inhibition of cell growth measured after 72 hrs by CCK-8 assay
|
[PMID: 34058663] |
| L132 | IC50 |
1.68 μM
Compound: DTX
|
Cytotoxicity against human L-132 cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
Cytotoxicity against human L-132 cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
|
[PMID: 26791014] |
| LN-229 | IC50 |
0.002 μM
Compound: Docetaxel
|
Antiproliferative activity against human LN229 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
Antiproliferative activity against human LN229 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
|
[PMID: 32832030] |
| LNCaP | IC50 |
0.0002 μM
Compound: Docetaxel
|
Antiproliferative activity against docetaxel-sensitive human LNCAP cells after 3 days by WST-1 assay
Antiproliferative activity against docetaxel-sensitive human LNCAP cells after 3 days by WST-1 assay
|
[PMID: 29784275] |
| LNCaP | IC50 |
0.2 nM
Compound: Docetaxel
|
Antiproliferative activity against docetaxel-sensitive human LNCAP cells after 3 days by WST-1 assay
Antiproliferative activity against docetaxel-sensitive human LNCAP cells after 3 days by WST-1 assay
|
[PMID: 29784275] |
| LNCaP | IC50 |
0.0002 μM
Compound: Docetaxel
|
Antiproliferative activity against androgen-insensitive human LNCaP cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
Antiproliferative activity against androgen-insensitive human LNCaP cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
|
[PMID: 33753258] |
| LNCaP | IC50 |
0.2 nM
Compound: Docetaxel
|
Antiproliferative activity against androgen-insensitive human LNCaP cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
Antiproliferative activity against androgen-insensitive human LNCaP cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
|
[PMID: 33753258] |
| LNCaP | IC50 |
1 nM
Compound: DTX
|
Cytotoxicity against human LNCaP cells assessed as reduction in cell viability
Cytotoxicity against human LNCaP cells assessed as reduction in cell viability
|
[PMID: 34464875] |
| LNCaP | IC50 |
12.3 μM
Compound: Docetaxel
|
Cytotoxicity against human LNCaP cells assessed as cell death measured by MTT assay
Cytotoxicity against human LNCaP cells assessed as cell death measured by MTT assay
|
[PMID: 39137365] |
| MCF7 | IC50 |
3.6 μM
Compound: DTX
|
Cytotoxicity against human MCF-7 cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
Cytotoxicity against human MCF-7 cells assessed as reduction in cell viability at 10 uM measured after 24 hrs by MTT assay relative to control
|
[PMID: 26791014] |
| MCF7 | IC50 |
0.022 μM
Compound: Docetaxel
|
Cytotoxicity against human MCF7 cells assessed as cell growth inhibition after 24 hrs by MTT assay
Cytotoxicity against human MCF7 cells assessed as cell growth inhibition after 24 hrs by MTT assay
|
[PMID: 27077446] |
| MCF7 | IC50 |
0.8 μM
Compound: Docetaxel
|
Cytotoxicity against human MCF7 cells assessed as inhibition of cell survival rate after 48 hrs by MTT assay
Cytotoxicity against human MCF7 cells assessed as inhibition of cell survival rate after 48 hrs by MTT assay
|
[PMID: 27240278] |
| MCF7 | CC50 |
0.01 μM
Compound: Docetaxel
|
Cytotoxic activity in human MCF7 cells by sulforhodamine B assay
Cytotoxic activity in human MCF7 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| MCF7 | IC50 |
0.01 μM
Compound: Docetaxel
|
Antiproliferative activity in human MCF7 cells by sulforhodamine B assay
Antiproliferative activity in human MCF7 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| MCF7 | IC50 |
1.7 nM
Compound: Docetaxel
|
Cytotoxicity against human MCF7 cells after 72 hrs by sulforhodamine B assay
Cytotoxicity against human MCF7 cells after 72 hrs by sulforhodamine B assay
|
[PMID: 30036834] |
| MCF7 | IC50 |
10.3 nM
Compound: Docetaxel
|
Cytotoxicity against human MCF7 cells by MTT assay
Cytotoxicity against human MCF7 cells by MTT assay
|
[PMID: 30407813] |
| MCF7 | IC50 |
0.5 nM
Compound: Docetaxel
|
Antiproliferative activity against human MCF7 cells after 72 hrs by MTT assay
Antiproliferative activity against human MCF7 cells after 72 hrs by MTT assay
|
[PMID: 30629433] |
| MCF7 | IC50 |
3.9 nM
Compound: DT
|
Antiproliferative activity against human MCF7 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human MCF7 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| MDA-MB-231 | IC50 |
0.032 μM
Compound: Docetaxel
|
Cytotoxicity against human MDA-MB-231 cells assessed as cell growth inhibition after 24 hrs by MTT assay
Cytotoxicity against human MDA-MB-231 cells assessed as cell growth inhibition after 24 hrs by MTT assay
|
[PMID: 27077446] |
| MDA-MB-231 | CC50 |
0.19 μM
Compound: Docetaxel
|
Cytotoxic activity in human MDA-MB-231 cells by sulforhodamine B assay
Cytotoxic activity in human MDA-MB-231 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| MDA-MB-231 | IC50 |
0.07 μM
Compound: Docetaxel
|
Antiproliferative activity in human MDA-MB-231 cells by sulforhodamine B assay
Antiproliferative activity in human MDA-MB-231 cells by sulforhodamine B assay
|
[PMID: 29120172] |
| MDA-MB-231 | IC50 |
0.01 μM
Compound: Docetaxel
|
Antiproliferative activity against human MDA-MB-231 cells assessed as cell viability after 24 hrs
Antiproliferative activity against human MDA-MB-231 cells assessed as cell viability after 24 hrs
|
[PMID: 33139111] |
| MDA-MB-231 | IC50 |
0.02 μM
Compound: Docetaxel
|
Antiproliferative activity against human MDA-MB-231 cells assessed as reduction in cell viability incubated for 72 hrs by MTT assay
Antiproliferative activity against human MDA-MB-231 cells assessed as reduction in cell viability incubated for 72 hrs by MTT assay
|
[PMID: 36786551] |
| MDA-MB-231 | IC50 |
1.98 μM
Compound: Docetaxel
|
Antiproliferative activity against docetaxel-resistant human MDA-MB-231-DTR cells assessed as reduction in cell viability incubated for 72 hrs by sulforhodamine B assay
Antiproliferative activity against docetaxel-resistant human MDA-MB-231-DTR cells assessed as reduction in cell viability incubated for 72 hrs by sulforhodamine B assay
|
[PMID: 36786551] |
| MDA-MB-231 | IC50 |
4.68 μM
Compound: Docetaxel
|
Antiproliferative activity against docetaxel-resistant human MDA-MB-231-DTR cells assessed as reduction in cell viability incubated for 72 hrs by MTT assay
Antiproliferative activity against docetaxel-resistant human MDA-MB-231-DTR cells assessed as reduction in cell viability incubated for 72 hrs by MTT assay
|
[PMID: 36786551] |
| MDA-MB-231 | IC50 |
0.17 μM
Compound: PC
|
Cytotoxicity against human MDA-MB-231 cells assessed as reduction in cell viability after 24 hrs by MTT assay
Cytotoxicity against human MDA-MB-231 cells assessed as reduction in cell viability after 24 hrs by MTT assay
|
[PMID: 39102454] |
| MDA-MB-231 | IC50 |
38.9 μM
Compound: Docetaxel
|
Cytotoxicity against human MDA-MB-231 cells assessed as cell death measured by MTT assay
Cytotoxicity against human MDA-MB-231 cells assessed as cell death measured by MTT assay
|
[PMID: 39137365] |
| MDA-MB-468 | IC50 |
3.1 nM
Compound: DT
|
Antiproliferative activity against human MDA-MB-468 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human MDA-MB-468 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| MES-SA | IC50 |
3.4 nM
Compound: DT
|
Antiproliferative activity against human MES-SA cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human MES-SA cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| MM1.S | IC50 |
0.0118 μM
Compound: Docetaxel
|
Antiproliferative activity against human MM1.S cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
Antiproliferative activity against human MM1.S cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
|
[PMID: 33248847] |
| MV4-11 | GI50 |
0.0005 μM
Compound: Taxotere
|
Antiproliferative activity against human MV4-11 cells incubated for 72 hrs by CellTiter-Glo luminescence assay
Antiproliferative activity against human MV4-11 cells incubated for 72 hrs by CellTiter-Glo luminescence assay
|
[PMID: 30802730] |
| MV4-11 | GI50 |
0.5 nM
Compound: Taxotere
|
Antiproliferative activity against human MV4-11 cells incubated for 72 hrs by CellTiter-Glo luminescence assay
Antiproliferative activity against human MV4-11 cells incubated for 72 hrs by CellTiter-Glo luminescence assay
|
[PMID: 30802730] |
| NCI/ADR-RES | IC50 |
21.2 μM
Compound: Docetaxel
|
Cytotoxicity against human MCF7/ADR cells assessed as inhibition of cell survival rate after 48 hrs by MTT assay
Cytotoxicity against human MCF7/ADR cells assessed as inhibition of cell survival rate after 48 hrs by MTT assay
|
[PMID: 27240278] |
| NCI/ADR-RES | IC50 |
1530.5 nM
Compound: Docetaxel
|
Cytotoxicity against human MCF7/ADR cells after 72 hrs by sulforhodamine B assay
Cytotoxicity against human MCF7/ADR cells after 72 hrs by sulforhodamine B assay
|
[PMID: 30036834] |
| NCI-H460 | IC50 |
0.89 μM
Compound: Docetaxel
|
Cytostatic activity against human NCI-H460 cells
Cytostatic activity against human NCI-H460 cells
|
[PMID: 30738653] |
| NCI-H460 | IC50 |
0.007 μM
Compound: Docetaxel
|
Antiproliferative activity against human NCI-H460 cells
Antiproliferative activity against human NCI-H460 cells
|
[PMID: 31005446] |
| NCI-H460 | IC50 |
0.004 μM
Compound: Docetaxel
|
Antiproliferative activity against human NCI-H460 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
Antiproliferative activity against human NCI-H460 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
|
[PMID: 32832030] |
| NCI-H460 | IC50 |
0.0024 μM
Compound: Docetaxel
|
Antiproliferative activity against human NCI-H460 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
Antiproliferative activity against human NCI-H460 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
|
[PMID: 33248847] |
| PC-3 | IC50 |
0.013 μM
Compound: Docetaxel
|
Cytotoxicity against human PC3 cells assessed as cell growth inhibition after 24 hrs by MTT assay
Cytotoxicity against human PC3 cells assessed as cell growth inhibition after 24 hrs by MTT assay
|
[PMID: 27077446] |
| PC-3 | IC50 |
5 nM
Compound: Docetaxel
|
Cytotoxicity against human PC3 cells
Cytotoxicity against human PC3 cells
|
[PMID: 28462831] |
| PC-3 | IC50 |
8 nM
Compound: Docetaxel
|
Cytotoxicity against human PC3 cells assessed as decrease in cell viability after 72 hrs by trypan blue exclusion assay
Cytotoxicity against human PC3 cells assessed as decrease in cell viability after 72 hrs by trypan blue exclusion assay
|
[PMID: 28462831] |
| PC-3 | IC50 |
0.5 nM
Compound: Docetaxel
|
Cytotoxicity against human PC3 cells after 72 hrs by MTS assay
Cytotoxicity against human PC3 cells after 72 hrs by MTS assay
|
[PMID: 29406710] |
| PC-3 | IC50 |
0.0019 μM
Compound: Docetaxel
|
Antiproliferative activity against docetaxel-sensitive human PC3 cells after 3 days by WST-1 assay
Antiproliferative activity against docetaxel-sensitive human PC3 cells after 3 days by WST-1 assay
|
[PMID: 29784275] |
| PC-3 | IC50 |
0.6 nM
Compound: Docetaxel
|
Antiproliferative activity against human PC3 cells after 72 hrs by MTT assay
Antiproliferative activity against human PC3 cells after 72 hrs by MTT assay
|
[PMID: 30629433] |
| PC-3 | IC50 |
0.5 nM
Compound: Docetaxel
|
Antiproliferative activity against human PC3 cells
Antiproliferative activity against human PC3 cells
|
[PMID: 31251599] |
| PC-3 | GI50 |
9 ng/mL
Compound: Dxtl
|
Growth inhibition of human PC3 cells incubated for 48 hrs by MTS assay
Growth inhibition of human PC3 cells incubated for 48 hrs by MTS assay
|
[PMID: 31767266] |
| PC-3 | IC50 |
0.0019 μM
Compound: Docetaxel
|
Antiproliferative activity against androgen-insensitive human PC-3 cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
Antiproliferative activity against androgen-insensitive human PC-3 cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
|
[PMID: 33753258] |
| PC-3 | IC50 |
2.34 μM
Compound: Docetaxel
|
Antiproliferative activity against Docetaxel-resistant human PC-3 cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
Antiproliferative activity against Docetaxel-resistant human PC-3 cells assessed as reduction in cell viability incubated for 3 days by WST-1 assay
|
[PMID: 33753258] |
| PC-3 | CC50 |
1 nM
Compound: Docetaxel
|
Cytotoxicity against human PC-3 cells assessed as reduction in cell viability measured after 72 hrs by MTT assay
Cytotoxicity against human PC-3 cells assessed as reduction in cell viability measured after 72 hrs by MTT assay
|
[PMID: 34717125] |
| PC-3 | CC50 |
6.7 nM
Compound: Docetaxel
|
Cytotoxicity against human PC-3 cells not expressing PMSA measured using MTT assay
Cytotoxicity against human PC-3 cells not expressing PMSA measured using MTT assay
|
[PMID: 34797052] |
| PC-3 | IC50 |
0.0006 μM
Compound: Docetaxel
|
Cytotoxicity against human PC-3 cells assessed as inhibition of cell growth and measured after 72 hrs resazurin reduction assay
Cytotoxicity against human PC-3 cells assessed as inhibition of cell growth and measured after 72 hrs resazurin reduction assay
|
[PMID: 36126331] |
| PC-3 | IC50 |
0.6 nM
Compound: Docetaxel
|
Cytotoxicity against human PC-3 cells assessed as inhibition of cell growth and measured after 72 hrs resazurin reduction assay
Cytotoxicity against human PC-3 cells assessed as inhibition of cell growth and measured after 72 hrs resazurin reduction assay
|
[PMID: 36126331] |
| PC-3 | EC50 |
7.6 nM
Compound: Docetaxel
|
Antiproliferative activity against human PC-3 cells assessed as reduction in cell viability by MTT assay
Antiproliferative activity against human PC-3 cells assessed as reduction in cell viability by MTT assay
|
[PMID: 37290495] |
| PC-3 | IC50 |
12.5 μM
Compound: Docetaxel
|
Cytotoxicity against human PC-3 cells assessed as cell death measured by MTT assay
Cytotoxicity against human PC-3 cells assessed as cell death measured by MTT assay
|
[PMID: 39137365] |
| PC-6 | GI50 |
1.48 ng/mL
Compound: 162
|
Growth inhibition of human PC-6 cells
Growth inhibition of human PC-6 cells
|
[PMID: 34213340] |
| RWPE-1 | IC50 |
1.73 μM
Compound: Docetaxel
|
Cytotoxicity against human RWPE1 cells assessed as cell growth inhibition after 24 hrs by MTT assay
Cytotoxicity against human RWPE1 cells assessed as cell growth inhibition after 24 hrs by MTT assay
|
[PMID: 27077446] |
| SH-SY5Y | IC50 |
0.0018 μM
Compound: Docetaxel
|
Cytotoxicity against human SH-SY5Y cells assessed as inhibition of cell growth and measured upto 72 hrs by clonogenic assay
Cytotoxicity against human SH-SY5Y cells assessed as inhibition of cell growth and measured upto 72 hrs by clonogenic assay
|
[PMID: 36126331] |
| SiHa | CC50 |
0.22 μM
Compound: Docetaxel
|
Cytotoxic activity in human SiHa cells by sulforhodamine B assay
Cytotoxic activity in human SiHa cells by sulforhodamine B assay
|
[PMID: 29120172] |
| SiHa | IC50 |
0.09 μM
Compound: Docetaxel
|
Antiproliferative activity in human SiHa cells by sulforhodamine B assay
Antiproliferative activity in human SiHa cells by sulforhodamine B assay
|
[PMID: 29120172] |
| SK-HEP1 | IC50 |
0.03 μM
Compound: PC
|
Cytotoxicity against human SK-HEP1 cells assessed as reduction in cell viability after 24 hrs by MTT assay
Cytotoxicity against human SK-HEP1 cells assessed as reduction in cell viability after 24 hrs by MTT assay
|
[PMID: 39102454] |
| SK-MEL19 | GI50 |
0.002 μM
Compound: Taxotere
|
Antiproliferative activity against human SK-MEL-19 cells incubated for 72 hrs by CellTiter-Glo luminescence assay
Antiproliferative activity against human SK-MEL-19 cells incubated for 72 hrs by CellTiter-Glo luminescence assay
|
[PMID: 30802730] |
| SK-OV-3 | IC50 |
0.75 nM
Compound: Taxotere
|
Cytotoxicity against human SKOV3 cells after 72 to 120 hrs by sulforhodamine B assay
Cytotoxicity against human SKOV3 cells after 72 to 120 hrs by sulforhodamine B assay
|
[PMID: 29517223] |
| SK-OV-3 | IC50 |
0.05 μM
Compound: PC
|
Cytotoxicity against human SK-OV-3 cells assessed as reduction in cell viability after 24 hrs by MTT assay
Cytotoxicity against human SK-OV-3 cells assessed as reduction in cell viability after 24 hrs by MTT assay
|
[PMID: 39102454] |
| SW-620 | IC50 |
0.02 μM
Compound: DTX
|
Cytotoxicity against human SW-620 cells assessed as reduction in cell viability after 72 hrs by MTT assay
Cytotoxicity against human SW-620 cells assessed as reduction in cell viability after 72 hrs by MTT assay
|
[PMID: 32203786] |
| SW-620 | IC50 |
4.7 nM
Compound: Docetaxel
|
Anticancer activity against human SW-620 cells assessed as inhibition of cell proliferation measured after 72 hrs by MTT assay
Anticancer activity against human SW-620 cells assessed as inhibition of cell proliferation measured after 72 hrs by MTT assay
|
[PMID: 33221063] |
| T84 | IC50 |
2.7 nM
Compound: Docetaxel
|
Anticancer activity against human T84 cells assessed as inhibition of cell proliferation measured after 72 hrs by MTT assay
Anticancer activity against human T84 cells assessed as inhibition of cell proliferation measured after 72 hrs by MTT assay
|
[PMID: 33221063] |
| TERT-RPE1 | IC50 |
25 μM
Compound: Docetaxel
|
Cytostatic activity against human hTERT-RPE1 cells
Cytostatic activity against human hTERT-RPE1 cells
|
[PMID: 30738653] |
| TERT-RPE1 | IC50 |
0.0553 μM
Compound: Docetaxel
|
Cytotoxicity against human TERT-RPE1 cells assessed as inhibition of cell proliferation measured after 72 hrs by real time imaging analysis
Cytotoxicity against human TERT-RPE1 cells assessed as inhibition of cell proliferation measured after 72 hrs by real time imaging analysis
|
[PMID: 33248847] |
| TERT-RPE1 | IC50 |
8.2 nM
Compound: DT
|
Antiproliferative activity against human RPE-1 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
Antiproliferative activity against human RPE-1 cells assessed as reduction in cell viability incubated for 72 hrs by CelltiterGlo luminescent assay
|
[PMID: 38959729] |
| U-251 | IC50 |
0.7 nM
Compound: Docetaxel
|
Antiproliferative activity against human U251MG cells after 72 hrs by MTT assay
Antiproliferative activity against human U251MG cells after 72 hrs by MTT assay
|
[PMID: 30629433] |
| Vero | CC50 |
1.3 μM
Compound: Docetaxel
|
Cytotoxic activity in African green monkey Vero cells by sulforhodamine B assay
Cytotoxic activity in African green monkey Vero cells by sulforhodamine B assay
|
[PMID: 29120172] |
| Vero | IC50 |
0.13 μM
Compound: Docetaxel
|
Antiproliferative activity in African green monkey Vero cells by sulforhodamine B assay
Antiproliferative activity in African green monkey Vero cells by sulforhodamine B assay
|
[PMID: 29120172] |
| Z-138 | IC50 |
3 μM
Compound: Docetaxel
|
Cytostatic activity against human Z138 cells
Cytostatic activity against human Z138 cells
|
[PMID: 30738653] |
| Z-138 | IC50 |
0.009 μM
Compound: Docetaxel
|
Antiproliferative activity against human Z138 cells
Antiproliferative activity against human Z138 cells
|
[PMID: 31005446] |
| Z-138 | IC50 |
0.004 μM
Compound: Docetaxel
|
Antiproliferative activity against human Z138 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
Antiproliferative activity against human Z138 cells assessed as reduction in cell viability incubated for 72 hrs by IncuCyte live-cell imaging assay
|
[PMID: 32832030] |
| Z-138 | IC50 |
0.0142 μM
Compound: Docetaxel
|
Antiproliferative activity against human Z138 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
Antiproliferative activity against human Z138 cells assessed as inhibition of cell proliferation measured after 72 hrs by by real time imaging analysis
|
[PMID: 33248847] |
Docetaxel (RP-56976) and Glufosfamide (GLU) single and combined treatments affect the cells viability in a dose-dependent manner. The IC50 of GLU are 70±4 μM and 86.8±8 μM in PC-3 and LNCaP cells; respectively. While, the IC50 of Docetaxel alone is found to be 3.08±0.4 nM and 1.46±0.2 nM in PC-3 and LNCaP cells; respectively. The co-treatment of GLU with Docetaxel is found to synergize the cytotoxicity and the IC50 values are decreased to be 2.7±0.1 nM and 0.75±0.3 nM in PC-3 and LNCaP cells; respectively[1].IC50 of NCI-H460 to Docetaxel at 24 h is 116 nM and at 72 h is 30 nM. According to data reported in DTP Data Search, the mean IC50 of NCI-60 cell panel to Docetaxel is 14-34 nM[2].
MedChemExpress (MCE) has not independently confirmed the accuracy of these methods. They are for reference only.
MedChemExpress (MCE) has not independently confirmed the accuracy of these methods. They are for reference only.
| NCT Number | Sponsor | Condition | Start Date |
Phase
|
|---|---|---|---|---|
| NCT01329991 | Plexxikon| | 2011-05 | PHASE1 |
Chemical Information
-
CAS No. 114977-28-5
-
Appearance Solid
-
Molecular Weight 807.88
-
Formula C43H53NO14
-
Color White to off-white
-
SMILES
O=C(OC(C)(C)C)N[C@@H](C1=CC=CC=C1)[C@H](C(O[C@@H]2C(C)=C([C@@H](O)C([C@@]3(C)[C@]([C@@](CO4)(OC(C)=O)[C@@]4([H])C[C@@H]3O)([H])[C@@H]5OC(C6=CC=CC=C6)=O)=O)C(C)(C)[C@@]5(O)C2)=O)O
-
Synonyms
RP-56976
-
Structure Classification
-
Initial Source
-
Shipping
Room temperature in continental US; may vary elsewhere.
-
Storage
4°C, protect from light
* In solvent : -80°C, 1 year; -20°C, 6 months (protect from light)
Publications (165)
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Journal Impact Factor
-
Most Recent
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Signal Transduct Target Ther
Targeting oncogenic TβRI signaling inhibits androgen-independent prostate cancer growth and metastasis. [Abstract]2026 Jun 17;11(1):238. PMID: 42303991 -
Signal Transduct Target Ther
Selective depletion of tumor-associated SAMHD1 enhances chemotherapeutic efficacy and antitumor immune responses. [Abstract]2025 Dec 15;10(1):406. PMID: 41392286 -
Signal Transduct Target Ther
Elaiophylin triggers paraptosis and preferentially kills ovarian cancer drug-resistant cells by inducing MAPK hyperactivation. [Abstract]2022 Sep 12;7(1):317. PMID: 36097006 -
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J Hematol Oncol
Myeloid-like tumor hybrid cells in bone marrow promote progression of prostate cancer bone metastasis. [Abstract]2023 May 3;16(1):46. PMID: 37138326
Docetaxel purchased from MedChemExpress. Usage Cited in: J Hematol Oncol. 2023 May 3;16(1):46. [Abstract]
Under docetaxel treatment (0.5 nM, 1 nM, 2.5 nM, 5 nM, 10 nM, 20 nM, 48 hours), myeloid-like tumor hybrid cells were less sensitive than the RM1 cell line.
-
Mol Cancer
Autologous patient-derived exhausted nano T-cells exploit tumor immune evasion to engage an effective cancer therapy. [Abstract]2024 May 9;23(1):83. PMID: 38730475 -
Cancer Discov
Targeting KRAS codon 13 mutations using direct combination approaches in non-small cell lung cancer. [Abstract]2026 Jun 22. PMID: 42329102 -
Adv Mater
Soft Extrudable Dendritic Particles with Nanostructured Tendrils for Local Adhesion and Drug Release to Bladder Cancers. [Abstract]2025 Jul 4:e2505231. PMID: 40611758 -
Eur Urol
Taxane-induced Attenuation of the CXCR2/BCL-2 Axis Sensitizes Prostate Cancer to Platinum-based Treatment. [Abstract]2020 Nov 2;S0302-2838(20)30778-8. PMID: 33153817 -
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Cancer Res
Targeting Sialylation Enhances the Therapeutic Efficacy of the Nectin-4-Targeted Antibody-Drug Conjugate Enfortumab Vedotin in Bladder Cancer. [Abstract]2025 Oct 9. PMID: 41066596 -
ACS Nano
Metabolic Control by Heat Stress Determining Cell Fate to Ferroptosis for Effective Cancer Therapy. [Abstract]2021 Apr 27;15(4):7179-7194. PMID: 33861924 -
Sci Transl Med
TSPAN8+ myofibroblastic cancer-associated fibroblasts promote chemoresistance in patients with breast cancer. [Abstract]2024 Apr 3;16(741):eadj5705. PMID: 38569015
Docetaxel purchased from MedChemExpress. Usage Cited in: Sci Transl Med. 2024 Apr 3;16(741):eadj5705. [Abstract]
Growth inhibition by docetaxel (Doc) (0–10 μM) in TS− or TS+ CAFs isolated from patients with BC was observed. The survival rates of TSPAN8+ CAFs were enhanced compared with TSPAN8− CAFs when challenged with an equal dosage of docetaxel.
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Acta Pharm Sin B
Intracellular aggregation of peptide-reprogrammed small molecule nanoassemblies enhances cancer chemotherapy and combinatorial immunotherapy. [Abstract]2021 Apr;11(4):1069-1082. PMID: 33996418 -
Adv Sci (Weinh)
Red Blood Cells Internalize Extracellular DNA via Apoptotic Bodies with Clinical Relevance to Cancer Patients. [Abstract]2026 Mar;13(13):e11408. PMID: 41486873 -
Adv Sci (Weinh)
Osteoblast-Derived ECM1 Promotes Anti-Androgen Resistance in Bone Metastatic Prostate Cancer. [Abstract]2024 Nov 20:e2407662. PMID: 39563492
Docetaxel purchased from MedChemExpress. Usage Cited in: Adv Sci (Weinh). 2024 Nov 20:e2407662. [Abstract]
Representative images and quantitative analysis of surviving clones after treatment of C4-2B and LNCaP cells with PBS or ECM1 protein (200 ng/mL) in the presence of docetaxel (10 μM) were shown.
Docetaxel purchased from MedChemExpress. Usage Cited in: Adv Sci (Weinh). 2024 Nov 20:e2407662. [Abstract]
Flow cytometry analysis showed representative images and quantification of apoptosis in C4-2B and LNCaP cells in the presence of docetaxel (10 μM). Docetaxel caused PCa cell apoptosis compared to that in the vehicle group.
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J Clin Invest
Targeting Wnt/β-Catenin and circadian regulator restores PRC2/EZH2 controlled chromatin bivalency and suppresses cell state diversity. [Abstract]2026 Mar 17:e200260. PMID: 41842971 -
Biomaterials
Sustained potentiation of bystander killing via PTEN-loss driven macropinocytosis targeted peptide-drug conjugate therapy in metastatic triple-negative breast cancer. [Abstract]2022 Oct:289:121783. PMID: 36084486 -
J Exp Clin Cancer Res
LncRNA SNHG4 promotes prostate cancer cell survival and resistance to enzalutamide through a let-7a/RREB1 positive feedback loop and a ceRNA network. [Abstract]2023 Aug 18;42(1):209. PMID: 37596700 -
J Control Release
Macropinocytosis-targeted peptide-docetaxel conjugate for bystander pancreatic cancer treatment. [Abstract]2024 Dec:376:829-841. PMID: 39491626 -
J Control Release
Effective combination of liposome-targeted chemotherapy and PD-L1 blockade of murine colon cancer. [Abstract]2023 Jan:353:490-506. PMID: 36460179 -
Biomark Res
2022 Jul 13;10(1):48. PMID: 35831872 -
J Control Release
Management of lymph node metastasis via local chemotherapy can prevent distant metastasis and improve survival in mice. [Abstract]2021 Jan 10;329:847-857. PMID: 33065097 -
Genome Med
Genomic and transcriptomic analysis of breast cancer identifies novel signatures associated with response to neoadjuvant chemotherapy. [Abstract]2024 Jan 12;16(1):11. PMID: 38217005 -
Cell Rep Med
Sex-biased intratumoral microbiome influences tumor molecular and immune landscape and disease outcomes. [Abstract]2026 May 19;7(5):102757. PMID: 42013847 -
Cell Rep Med
A human patient-derived organoid biobank to model tumor heterogeneity and therapeutic vulnerability for oral squamous cell carcinoma. [Abstract]2026 Feb 17;7(2):102622. PMID: 41707653 -
Cell Rep Med
CAN-Scan: A multi-omic phenotype-driven precision oncology platform identifies prognostic biomarkers of therapy response for colorectal cancer. [Abstract]2025 Apr 2:102053. PMID: 40187357 -
Cell Rep Med
Using patient-derived organoids to predict locally advanced or metastatic lung cancer tumor response: A real-world study. [Abstract]2023 Feb 21;4(2):100911. PMID: 36657446 -
J Immunother Cancer
ATM/NEMO signaling modulates the expression of PD-L1 following docetaxel chemotherapy in prostate cancer. [Abstract]2021 Jul;9(7):e001758. PMID: 34301812 -
Pharmacol Res
2024 May 9:204:107208. PMID: 38729587 -
Mater Today Bio
Mannosylated graphene oxide nanotherapeutics co-delivering docetaxel and a STING agonist reprogram myeloid cells and potentiate antitumor immunity. [Abstract]2026 Mar 31:38:103086. PMID: 42006712 -
Cancer Lett
Chemoresistance-motility signature of molecular evolution to chemotherapy in non-muscle-invasive bladder cancer and its clinical implications. [Abstract]2024 Nov 26:217339. PMID: 39608442 -
Cancer Lett
The CAIX inhibitor SLC-0111 exerts anti-cancer activity on gastric cancer cell lines and resensitizes resistant cells to 5-Fluorouracil, taxane-derived, and platinum-based drugs. [Abstract]2023 Sep 1:571:216338. PMID: 37549770 -
J Colloid Interface Sci
Smart dual responsive nanocarriers with reactive oxygen species amplification assisted synergistic chemotherapy against prostate cancer. [Abstract]2022 May 2;622:789-803. PMID: 35544966 -
Cell Death Dis
2026 Mar 24;17(1):363. PMID: 41876450 -
Cell Death Dis
Both direct and indirect suppression of MCL1 synergizes with BCLXL inhibition in preclinical models of gastric cancer. [Abstract]2025 Mar 12;16(1):170. PMID: 40075071 -
Cell Death Dis
Single-cell transcriptome profiles the heterogeneity of tumor cells and microenvironments for different pathological endometrial cancer and identifies specific sensitive drugs. [Abstract]2024 Aug 7;15(8):571. PMID: 39112478 -
Proc Natl Acad Sci U S A
Computational drug discovery for castration-resistant prostate cancers through in vitro drug response modeling. [Abstract]2023 Apr 25;120(17):e2218522120. PMID: 37068243 -
ACS Sens
Cryopreservable Through-Hole Arrays for the High-Throughput Three-Dimensional Smartphone-Based Cell Colorimetric Assay. [Abstract]2023 Feb 24;8(2):543-554. PMID: 36705290 -
Phytomedicine
Artemisitene induces apoptosis of breast cancer cells by targeting FDFT1 and inhibits the growth of breast cancer patient-derived organoids. [Abstract]2024 Dec:135:156155. PMID: 39461203 -
Phytomedicine
Sculponeatin A promotes the ETS1-SYVN1 interaction to induce SLC7A11/xCT-dependent ferroptosis in breast cancer. [Abstract]2023 Aug:117:154921. PMID: 37327642 -
Phytomedicine
Compound K is a potential clinical anticancer agent in prostate cancer by arresting cell cycle. [Abstract]2023 Jan:109:154584. PMID: 36610114 -
Phytomedicine
Traditional Chinese medicine CFF-1 exerts a potent anti-tumor immunity to hinder tumor growth and metastasis in prostate cancer through EGFR/JAK1/STAT3 pathway to inhibit PD-1/PD-L1 checkpoint signaling. [Abstract]2022 May:99:153939. PMID: 35172257 -
ACS Appl Mater Interfaces
Single-Cell Fluidic Force Spectroscopy Reveals Dynamic Mechanical Fingerprints of Malignancy in Breast Cancer. [Abstract]2024 Sep 25;16(38):50147-50159. PMID: 39105773 -
ACS Appl Mater Interfaces
Glutathione and Esterase Dual-Responsive Smart Nano-drug Delivery System Capable of Breaking the Redox Balance for Enhanced Tumor Therapy. [Abstract]2023 May 3;15(17):20697-20711. PMID: 37083309 -
Cancer Immunol Res
Discovery of podofilox as a potent cGAMP-STING signaling enhancer with antitumor activity. [Abstract]2023 May 3;11(5):583-599. PMID: 36921097 -
Mater Sci Eng C Mater Biol Appl
Reactive oxygen species and glutathione dual responsive nanoparticles for enhanced prostate cancer therapy. [Abstract]2021 Apr:123:111956. PMID: 33812584 -
Biofabrication
2023 Jun 9;15(3). PMID: 37236173 -
Br J Pharmacol
2024 Nov;181(21):4279-4293. PMID: 38982588 -
Arch Pharm Res
Modulating versatile pathways using a cleavable PEG shell and EGFR-targeted nanoparticles to deliver CRISPR-Cas9 and docetaxel for triple-negative breast cancer inhibition. [Abstract]2024 Nov;47(10-11):829-853. PMID: 39482441 -
Biomed Pharmacother
Dual receptor specific nanoparticles targeting EGFR and PD-L1 for enhanced delivery of docetaxel in cancer therapy. [Abstract]2023 Sep:165:115023. PMID: 37329708 -
Biomed Pharmacother
Patient-derived organoid culture of gastric cancer for disease modeling and drug sensitivity testing. [Abstract]2023 Jul:163:114751. PMID: 37105073 -
Diabetes
FGF13-sensitive alteration of Parkin safeguards mitochondrial homeostasis in endothelium of diabetic nephropathy. [Abstract]2023 Jan 1;72(1):97-111. PMID: 36256844 -
J Transl Int Med
Anti-SIA-cIgG enhances chemotherapy effectiveness through PTPN13-regulated tumor stemness in head and neck squamous cell carcinoma. [Abstract]2026 Mar 26;14(2):237-258. PMID: 42046805 -
Cell Mol Gastroenterol Hepatol
2021;11(3):683-696. PMID: 33075564 -
Oncogene
HOMER3 drives oral squamous cell carcinoma progression through TRPV6 calcium influx and TUBB3 microtubule stabilization. [Abstract]2026 Jan;45(2):278-294. PMID: 41326663 -
Oncogene
Targeting SREBP-dependent lipogenesis potentiates the anti-tumor activity of docetaxel by increasing membrane permeability and intracellular drug accumulation. [Abstract]2025 Nov;44(45):4405-4412. PMID: 41046255 -
Cell Rep
Elevating PLK1 overcomes BETi resistance in prostate cancer via triggering BRD4 phosphorylation-dependent degradation in mitosis. [Abstract]2024 Jul 3;43(7):114431. PMID: 38968071 -
J Agric Food Chem
Eurochevalierines A - I, Sesquiterpene Alkaloid Hybrids with Anti-Triple Negative Breast Cancer Activity from Penicillium sp. HZ-5. [Abstract]2024 Jul 31;72(30):16801-16811. PMID: 39016690 -
Cell Biosci
2023 Nov 25;13(1):215. PMID: 38007480 -
Cancer Cell Int
2024 Dec 27;24(1):433. PMID: 39731167 -
Cancer Cell Int
Activation of the PERK/eIF2α axis is a pivotal prerequisite of taxanes to cancer cell apoptosis and renders synergism to overcome paclitaxel resistance in breast cancer cells. [Abstract]2024 Jul 17;24(1):249. PMID: 39020371 -
Eur J Med Chem
Jatrophane diterpenoids from Euphorbia sororia as potent modulators against P-glycoprotein-based multidrug resistance. [Abstract]2018 Feb 25:146:157-170. PMID: 29407947 -
Int J Mol Med
Paeoniflorigenone inhibits ovarian cancer metastasis through targeting the MUC1/Wnt/β‑catenin pathway. [Abstract]2024 Jul;54(1):60. PMID: 38785138 -
Breast Cancer Res
TMEM120B strengthens breast cancer cell stemness and accelerates chemotherapy resistance via β1-integrin/FAK-TAZ-mTOR signaling axis by binding to MYH9. [Abstract]2024 Mar 19;26(1):48. PMID: 38504374 -
Biochem Pharmacol
Precision-engineered reporter cell lines reveal ABCG2 regulation in live lung cancer cells. [Abstract]2020 May;175:113865. PMID: 32142727 -
Drug Deliv Transl Res
Surface-engineered nanostructured lipid carrier systems for synergistic combination oncotherapy of non-small cell lung cancer. [Abstract]2021 Oct;11(5):2030-2051. PMID: 33215254 -
J Enzyme Inhib Med Chem
Integrating virtual screening and molecular dynamics simulations to identify emodin as a PYCR1 inhibitor modulating docetaxel sensitivity in prostate cancer. [Abstract]2026 Dec;41(1):2622725. PMID: 41665114 -
Chem Biol Interact
The prognostic gene CRABP2 affects drug sensitivity by regulating docetaxel-induced apoptosis in breast invasive carcinoma: A pan-cancer analysis. [Abstract]2023 Mar 1:373:110372. PMID: 36736488 -
Int J Pharm
Surface-modified nanoparticles of docetaxel for chemotherapy of lung cancer: an intravenous to oral switch. [Abstract]2023 Apr 5:636:122846. PMID: 36921744 -
Life Sci
A protective role of ECSIT in chemotherapy-induced intestinal mucositis by maintaining Lgr5+ intestinal stem cells and gut homeostasis. [Abstract]2026 Mar 15:389:124236. PMID: 41611204 -
Cancer Immunol Immunother
Construction and application of a humanized mouse model for prostate cancer in immunotherapy. [Abstract]2025 Nov 18;74(12):377. PMID: 41251708 -
-
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Life Sci
N6-methyladenosine-modified circQKI inhibits prostate cancer docetaxel-sensitivity via miR-188-3p/Beclin-1 pathway. [Abstract]2025 Apr 17:372:123646. PMID: 40250752 -
Life Sci
Rational design, engineer, and characterization of a novel pegylated single isomer human arginase for arginine depriving anti-cancer treatment. [Abstract]2021 Jan 1;264:118674. PMID: 33129876 -
Life Sci
Arctigenin inhibits proliferation of ER-positive breast cancer cells through cell cycle arrest mediated by GSK3-dependent cyclin D1 degradation. [Abstract]2020 Sep 1;256:117983. PMID: 32565252 -
Biol Direct
Integrative genomics unveils basement membrane-related diagnostic markers and therapeutic targets in esophageal squamous cell carcinoma. [Abstract]2024 Sep 11;19(1):79. PMID: 39256753 -
Int J Mol Sci
Dual Inhibition of BRAF-MAPK and STAT3 Signaling Pathways in Resveratrol-Suppressed Anaplastic Thyroid Cancer Cells with BRAF Mutations. [Abstract]2022 Nov 19;23(22):14385. PMID: 36430869 -
Int J Mol Sci
Potent Anti-Cancer Properties of Phthalimide-Based Curcumin Derivatives on Prostate Tumor Cells. [Abstract]2019 Jan; 20(1): 28. PMID: 30577600 -
Pharmaceuticals (Basel)
Computational Modeling to Identify Drugs Targeting Metastatic Castration-Resistant Prostate Cancer Characterized by Heightened Glycolysis. [Abstract]2024 Apr 29;17(5):569. PMID: 38794139 -
Int J Cancer
Establishment of patient-derived organoids for guiding personalized therapies in breast cancer patients. [Abstract]2024 Jul 15;155(2):324-338. PMID: 38533706 -
Mol Oncol
Patient therapy outcome modeling in cancer organoids is improved by cancer-associated fibroblasts and organoid assembly convolution. [Abstract]2026 Jun 5. PMID: 42246237 -
Cell Rep Methods
RECOVER identifies synergistic drug combinations in vitro through sequential model optimization. [Abstract]2023 Oct 23;3(10):100599. PMID: 37797618 -
BJU Int
Drug-releasing intravesical floating technology for sequential gemcitabine and docetaxel in non-muscle-invasive bladder cancer. [Abstract]2025 Nov 3. PMID: 41178321 -
Clin Epigenetics
Investigating the mechanisms by which low NAT1 expression in tumor cells contributes to chemo-resistance in colorectal cancer. [Abstract]2025 May 6;17(1):77. PMID: 40329330 -
Cancers
Dual Inhibitory Action of a Novel AKR1C3 Inhibitor on Both Full-Length AR and the Variant AR-V7 in Enzalutamide Resistant Metastatic Castration Resistant Prostate Cancer. [Abstract]2020 Jul 28;12(8):2092. PMID: 32731472 -
Pharm Res
Active Targeting of Colorectal Cancer Using Chemotherapy-Loaded Nanoparticles Functionalized with a Folate Receptor-α (FRα) Ligand, Pemetrexed. [Abstract]2025 Nov 18. PMID: 41254319 -
ACS Omega
Identification of New Modulators and Inhibitors of Palmitoyl-Protein Thioesterase 1 for CLN1 Batten Disease and Cancer. [Abstract]2024 Feb 28;9(10):11870-11882. PMID: 38496939 -
Cancer Sci
NOTCH3 promotes docetaxel resistance of prostate cancer cells through regulating TUBB3 and MAPK signaling pathway. [Abstract]2024 Feb;115(2):412-426. PMID: 38115797 -
J Liposome Res
Fabrication, optimization, and in vitro evaluation of docetaxel-loaded nanostructured lipid carriers for improved anticancer activity. [Abstract]2020 Jun;30(2):182-196. PMID: 31060404 -
J Mol Med (Berl)
Tyrosine hydroxylase as a therapeutic target: insights from adrenergic nerve and TNBC cell interactions. [Abstract]2026 Mar 19;104(1):53. PMID: 41857421 -
J Cell Mol Med
Anticancer Activity of Annonacin and Its Synergistic Enhancement of Docetaxel Efficacy in Prostate Cancer. [Abstract]2025 Dec;29(23):e70972. PMID: 41328625 -
FEBS J
2024 Jul;291(14):3249-3266. PMID: 38712529 -
J Cell Mol Med
Telmisartan anti-cancer activities mechanism through targeting N-cadherin by mimicking ADH-1 function. [Abstract]2022 Apr;26(8):2392-2403. PMID: 35224849 -
iScience
Identifying CTSF and GSTM3 as chemoresistance therapeutic targets in breast cancer through multi-omics MR analysis. [Abstract]2025 Oct 30;28(12):113908. PMID: 41321627 -
iScience
ALKBH5-IGF2BP2 axis mediates prostate cancer progression and docetaxel resistance via m6A-stabilized CLSPN RNA. [Abstract]2025 Sep 9;28(10):113520. PMID: 41069850 -
Transl Oncol
MiR-138-5p inhibits prostate cancer cell proliferation and chemoresistance by targeting APOBEC3B. [Abstract]2023 Sep:35:101723. PMID: 37364333 -
Sci Rep
2025 Jul 4;15(1):23847. PMID: 40615482 -
Sci Rep
Monolayer culture alters EGFR inhibitor response through abrogation of microRNA-mediated feedback regulation. [Abstract]2024 Mar 27;14(1):7303. PMID: 38538642 -
Sci Rep
Investigation of enzalutamide, docetaxel, and cabazitaxel resistance in the castration resistant prostate cancer cell line C4 using genome-wide CRISPR/Cas9 screening. [Abstract]2023 Jun 3;13(1):9043. PMID: 37270558 -
J Biol Chem
Androgen receptor splicing variant 7 (ARV7) inhibits docetaxel sensitivity by inactivating the spindle assembly checkpoint. [Abstract]2021 Jan-Jun:296:100276. PMID: 33428943 -
Biochim Biophys Acta Mol Cell Res
Cancer-associated fibroblasts secreting IL-6 inhibit the cisplatin and docetaxel killing effect in lung squamous cell carcinoma. [Abstract]2025 Jul 31;1872(8):120029. PMID: 40752594 -
PLoS Genet
Generation of prostate cancer assembloids modeling the patient-specific tumor microenvironment. [Abstract]2025 Mar 31;21(3):e1011652. PMID: 40163511 -
Transl Lung Cancer Res
Construction of a lung cancer 3D culture model based on alginate/gelatin micro-beads for drug evaluation. [Abstract]2024 Oct 31;13(10):2698-2712. PMID: 39507032 -
Mol Med Rep
miR‑133b affects cell proliferation, invasion and chemosensitivity in renal cell carcinoma by inhibiting the ERK signaling pathway. [Abstract]2020 Jul;22(1):67-76. PMID: 32377748 -
Eur J Med Res
Long non-coding RNA NORAD serves as a promoter of oncogenesis and inhibits ferroptosis via miR-144-3p-mTOR-ferritinophagy axis in cancer. [Abstract]2025 Aug 4;30(1):704. PMID: 40760677 -
BMC Cancer
Platycodin D-mediated METTL16 downregulation promotes docetaxel treatment of prostate cancer by regulating ferroptosis. [Abstract]2025 Jul 1;25(1):1042. PMID: 40597047 -
Chem Biol Drug Des
Polyphyllin VII Enhances the Sensitivity of Prostate Cancer Cells to Docetaxel by Promoting Mitochondrial Dysfunction and Inducing Ferroptosis. [Abstract]2025 Feb;105(2):e70053. PMID: 39871642 -
Front Oncol
2019 Dec 19;9:1398. PMID: 31921655 -
Int J Med Sci
Integrative analysis identifies PIGK as an oncogenic glycosylphosphatidylinositol transamidase subunit with prognostic, immunological, and therapeutic relevance in head and neck cancer. [Abstract]2026 Jan 1;23(1):161-176. PMID: 41399371 -
Pathol Res Pract
Alendronate-functionalized ZIF-8 nanoplatform for targeted delivery of SHH siRNA and docetaxel to treat prostate cancer bone metastasis. [Abstract]2025 Sep:273:156138. PMID: 40694986 -
Mol Carcinog
ZNF480 Accelerates Chemotherapy Resistance in Breast Cancer by Competing With TRIM28 and Stabilizing LSD1 to Upregulate the AKT-GSK3β-Snail Pathway. [Abstract]2025 Jan;64(1):192-208. PMID: 39503216 -
J Microencapsul
Fabrication, optimisation and in vitro evaluation of docetaxel and curcumin Co-loaded nanostructured lipid carriers for improved antitumor activity against non-small cell lung carcinoma. [Abstract]2020 Dec;37(8):543-556. PMID: 32924677 -
Materials
Antitumor Efficacy of Focused Ultrasound-MFL Nanoparticles Combination Therapy in Mouse Breast Cancer Xenografts. [Abstract]2020 Mar 2;13(5):1099. PMID: 32121631 -
J Microencapsul
Docetaxel-loaded PAMAM-based poly (γ-benzyl-l-glutamate)-b-d-α-tocopheryl polyethylene glycol 1000 succinate nanoparticles in human breast cancer and human cervical cancer therapy. [Abstract]2019 Sep;36(6):552-565. PMID: 31403342 -
Front Biosci (Landmark Ed)
Hypoxia-Induced VGF Promotes Cell Migration and Invasion in Prostate Cancer via the PI3K/Akt Axis. [Abstract]2025 Feb 20;30(2):25522. PMID: 40018933 -
Micromachines
Integrated Experimental-Computational Framework for Drug Transport Quantification in 3D Microtissues™. [Abstract]2026 Mar 9;17(3):332. PMID: 41900218 -
Breast Cancer Res Treat
2023 Jul;200(2):193-201. PMID: 37204665 -
Arch Biochem Biophys
KIF14 mediates cabazitaxel-docetaxel cross-resistance in advanced prostate cancer by promoting AKT phosphorylation. [Abstract]2023 Mar 15:737:109551. PMID: 36822388
Docetaxel purchased from MedChemExpress. Usage Cited in: Arch Biochem Biophys. 2023 Mar 15:737:109551. [Abstract]
Docetaxel (30 nM) exhibits anti-tumor activity in parental (DU145 and PC-3) and docetaxel-resistant (DU145/DTX50 and PC-3/DTX30) cell lines by down-regulating KIF14 expression.
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Breast Cancer
Quercetin Promote the Chemosensitivity in Organoids Derived from Patients with Breast Cancer. [Abstract]2024 Dec 20:16:993-1004. PMID: 39720358 -
Discov Oncol
Targeting XPO6 inhibits prostate cancer progression and enhances the suppressive efficacy of docetaxel. [Abstract]2023 May 27;14(1):82. PMID: 37243787 -
Reprod Toxicol
Protective effects of rutin against docetaxel-induced testicular damage in rats: Effects on antioxidant defence, apoptosis and autophagy. [Abstract]2026 Jan:139:109110. PMID: 41248718 -
J Cancer Res Clin Oncol
Docetaxel enhances the therapeutic efficacy of PSMA-specific CAR-T cells against prostate cancer models by suppressing MDSCs. [Abstract]2022 Dec;148(12):3511-3520. PMID: 35962287 -
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PLoS One
RIPK2 induces docetaxel resistance in prostate cancer through the NF-κB/P-gp signaling pathway. [Abstract]2026 Jan 21;21(1):e0341445. PMID: 41563982 -
Clin Transl Oncol
Establishment of an acquired lorlatinib-resistant cell line of non-small cell lung cancer and its mediated resistance mechanism. [Abstract]2022 Nov;24(11):2231-2240. PMID: 35852680 -
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Dual-modified PCL-PEG nanoparticles for improved targeting and therapeutic efficacy of docetaxel against colorectal cancer. [Abstract]2021 Oct;26(8):910-921. PMID: 34280065 -
Biochem Biophys Rep
Peroxiredoxin-1 as a molecular chaperone that regulates glutathione S-transferase P1 activity and drives mutidrug resistance in ovarian cancer cells. [Abstract]2024 Jan 14:37:101639. PMID: 38288281 -
Anticancer Drugs
Exosomal circRNA Scm-like with four malignant brain tumor domains 2 (circ-SFMBT2) enhances the docetaxel resistance of prostate cancer via the microRNA-136-5p/tribbles homolog 1 pathway. [Abstract]2022 Oct 1;33(9):871-882. PMID: 36136987 -
Oncol Lett
PP2A promotes apoptosis and facilitates docetaxel sensitivity via the PP2A/p-eIF4B/XIAP signaling pathway in prostate cancer. [Abstract]2022 Mar;23(3):101. PMID: 35154432 -
Eur J Histochem
Docetaxel-resistant triple-negative breast cancer cell-derived exosomal lncRNA LINC00667 reduces the chemosensitivity of breast cancer cells to docetaxel via targeting miR-200b-3p/Bcl-2 axis. [Abstract]2022 Oct 25;66(4). PMID: 36281649 -
Biomed Chromatogr
Investigation of the apoptosis-inducing effect of docetaxel by comprehensive LC-MS-based metabolomics and network pharmacology approaches. [Abstract]2022 Sep;36(9):e5417. PMID: 35633112 -
Mol Biol Res Commun
Combinatorial effects of telmisartan and docetaxel on cell viability and metastatic gene expression in human prostate and breast cancer cells. [Abstract]2022 Mar;11(1):11-20. PMID: 35463822 -
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bioRxiv
Loss of PIK3CA allows in vitro growth but not in vivo progression of KRAS mutant lung adenocarcinoma in a syngeneic orthotopic implantation model. [Abstract]2026 Feb 4:2026.02.02.701385. PMID: 41676515 -
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Novel mixed cancer-cell models designed to capture inter-patient tumor heterogeneity for accurate evaluation of drug combinations. [Abstract]2025 May 16:rs.3.rs-6590535. PMID: 40470249 -
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Diverse microtubule-destabilizing drugs induce equivalent molecular pathway responses in endothelial cells. [Abstract]2025 Jan 24:2025.01.22.632572. PMID: 39896568 -
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Inferring therapeutic vulnerability within tumors through integration of pan-cancer cell line and single-cell transcriptomic profiles. [Abstract]2023 Nov 1:2023.10.29.564598. PMID: 37961545 -
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Oxid Med Cell Longev
2022 May 24:2022:4930643. PMID: 39282153 -
J Oncol
Solamargine Inhibits Prostate Cancer Cell Growth and Enhances the Therapeutic Efficacy of Docetaxel via Akt Signaling. [Abstract]2022 Mar 10:2022:9055954. PMID: 35310915 -
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Nanotheranostics
Resveratrol and its Nanoparticle suppress Doxorubicin/Docetaxel-resistant anaplastic Thyroid Cancer Cells in vitro and in vivo. [Abstract]2021 Jan 1;5(2):143-154. PMID: 33457193 -
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Nanotheranostics
Resveratrol and its Nanoparticle suppress Doxorubicin/Docetaxel-resistant anaplastic Thyroid Cancer Cells in vitro and in vivo. [Abstract]2021 Jan 1;5(2):143-154. PMID: 33457193 -
Oncotarget
Molecular-genetic profiling and high-throughput in vitro drug screening in NUT midline carcinoma-an aggressive and fatal disease. [Abstract]2017 Dec 2;8(68):112313-112329. PMID: 29348827 -
Oncotarget
Brachyury as a potential modulator of androgen receptor activity and a key player in therapy resistance in prostate cancer. [Abstract]2016 May 17;7(20):28891-902. PMID: 27049720
Docetaxel purchased from MedChemExpress. Usage Cited in: Oncotarget. 2016 May 17;7(20):28891-902. [Abstract]
Western blot analyses for Brachyury and AR expression in prostate cell lines treated with Docetaxel (Doc) or with XRP6258 (Cab). Graphs represent the densimetric semi-quantification of western blot images.
Solvent & Solubility
DMSO : 100 mg/mL (123.78 mM; Need ultrasonic; Hygroscopic DMSO has a significant impact on the solubility of product, please use newly opened DMSO)
Ethanol : 50 mg/mL (61.89 mM; Need ultrasonic)
Please refer to the solubility information to select the appropriate solvent. Once prepared, please aliquot and store the solution to prevent product inactivation from repeated freeze-thaw cycles.
Storage method and period of stock solution: -80°C, 1 year; -20°C, 6 months (protect from light). When stored at -80°C, please use it within 1 year. When stored at -20°C, please use it within 6 months.
Please refer to the solubility information to select the appropriate solvent. Once prepared, please aliquot and store the solution to prevent product inactivation from repeated freeze-thaw cycles.
Storage method and period of stock solution: -80°C, 1 year; -20°C, 6 months (protect from light). When stored at -80°C, please use it within 1 year. When stored at -20°C, please use it within 6 months.
Concentration (start) × Volume (start) = Concentration (final) × Volume (final)
Select the appropriate dissolution method based on your experimental animal and administration route.
- For the following dissolution methods, please ensure to first prepare a clear stock solution using an In Vitro approach and then sequentially add co-solvents:
- To ensure reliable experimental results, the clarified stock solution can be appropriately stored based on storage conditions. As for the working solution for In Vivo experiments, it is recommended to prepare freshly and use it on the same day.
- The percentages shown for the solvents indicate their volumetric ratio in the final prepared solution. If precipitation or phase separation occurs during preparation, heat and/or sonication can be used to aid dissolution.
Add each solvent one by one: 10% EtOH 40% PEG300 5% Tween-80 45% Saline
Solubility: ≥ 5 mg/mL (6.19 mM); Clear solution
This protocol yields a clear solution of ≥ 5 mg/mL (saturation unknown).
Taking 1 mL working solution as an example, add 100 μL EtOH stock solution (50.0 mg/mL) to 400 μL PEG300, and mix evenly; then add 50 μL Tween-80 and mix evenly; then add 450 μL Saline to adjust the volume to 1 mL.
Preparation of Saline: Dissolve 0.9 g sodium chloride in ddH₂O and dilute to 100 mL to obtain a clear Saline solution.
Add each solvent one by one: 10% EtOH 90% Corn Oil
Solubility: ≥ 5 mg/mL (6.19 mM); Clear solution
This protocol yields a clear solution of ≥ 5 mg/mL (saturation unknown). If the continuous dosing period exceeds half a month, please choose this protocol carefully.
Taking 1 mL working solution as an example, add 100 μL EtOH stock solution (50.0 mg/mL) to 900 μL Corn oil, and mix evenly.
Add each solvent one by one: 10% DMSO 40% PEG300 5% Tween-80 45% Saline
Solubility: ≥ 2.08 mg/mL (2.57 mM); Clear solution
This protocol yields a clear solution of ≥ 2.08 mg/mL (saturation unknown).
Taking 1 mL working solution as an example, add 100 μL DMSO stock solution (20.8 mg/mL) to 400 μL PEG300, and mix evenly; then add 50 μL Tween-80 and mix evenly; then add 450 μL Saline to adjust the volume to 1 mL.
Preparation of Saline: Dissolve 0.9 g sodium chloride in ddH₂O and dilute to 100 mL to obtain a clear Saline solution.
Add each solvent one by one: 10% DMSO 90% (20% SBE-β-CD in Saline)
Solubility: ≥ 2.08 mg/mL (2.57 mM); Clear solution
This protocol yields a clear solution of ≥ 2.08 mg/mL (saturation unknown).
Taking 1 mL working solution as an example, add 100 μL DMSO stock solution (20.8 mg/mL) to 900 μL 20% SBE-β-CD in Saline, and mix evenly.
Preparation of 20% SBE-β-CD in Saline (4°C, storage for one week): 2 g SBE-β-CD powder is dissolved in 10 mL Saline, completely dissolve until clear.
Please enter the basic information of animal experiments:
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-
-
-
Recommended: Prepare an additional quantity of animals to account for potential losses during experiments.
Please enter your animal formula composition:
-
%DMSO +
Recommended: Keep the proportion of DMSO in working solution below 2% if your animal is weak.
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%+
-
+%Tween-80 + +
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%Saline +
The co-solvents required include: DMSO, . All of co-solvents are available by MedChemExpress (MCE). , Tween 80. All of co-solvents are available by MedChemExpress (MCE).
Working solution concentration: 0.22 mg/mL
Method for preparing stock solution: mg drug dissolved in μL DMSO. Stock solution concentration: mg/mL. * In solvent : -80°C, 1 year; -20°C, 6 months (protect from light)
1. Take μL DMSO stock solution;
2. Add μL .
μL , mix evenly;
3. Then add μL Tween 80, mix evenly;
4. Then add μL
Please ensure that the stock solution in the first step is dissolved to a clear state, and add co-solvents in sequence. You can use ultrasonic heating (ultrasonic cleaner, recommended frequency 20-40 kHz), vortexing, etc. to assist dissolution.
Protocol
Single-drug concentration-response curves are assessed. Seeding is done at a density of 2,000 cells/well for PC-3 and LNCaP, in 96-well plates. Cells are treated with each single drug and their combination for 72 h at different drug concentrations. Docetaxel is used at concentrations of 0.1-1,000 nM. GLU is used at concentrations of 0.1-300 µm. Cytotoxicity is assessed at the end of drug exposure using SRB assay. Following 72 h exposure the cells are fixed with 10% trichloroacetic acid (150 µL) for 1 h at 4°C. Then, cells are stained for 10 min at room temperature with 0.4% SRB dissolved in 1% acetic acid. The plates are then air dried for 24 h and the dye is made soluble with 150 µL Tris (10 mM, PH 7.4) for 5 min on a shaker at 1,600 rpm. Absorbance is then measured at 545 nM using microplate reader. Results are expressed as the relative percentage of absorbance compared to control[1].
MedChemExpress (MCE) has not independently confirmed the accuracy of these methods. They are for reference only.
Mice[3]
Five-week-old male Balb/c mice are used. Docetaxel (0, 10, 20, 30, 40, 60, and 80 mg/kg per week) is given once a week for 3 weeks for mice. Because more than 30 mg/kg per week of Docetaxel causes body weight loss in mice, 20 mg/kg per week of Docetaxel is judged to be the maximum nontoxic dose. Docetaxel (20 mg/kg per week) is given to mice once a week for 3 weeks at one of the following different points (2, 10, 14, or 22 HALO). Seventy-two hours after the final dosing of the agent, the intestinal mucosa of the small intestine (proximal 8 cm) is removed, fixed in 20 N Mildform solution (containing 8% formaldehyde in a buffered solution), and embedded in paraffin blocks, and sections of 5 μm are put on glass slides. Apoptosis is detected using the terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) method, using the Apop Tag Peroxidase In Situ Apoptosis Detection Kit.
Rats[4]
Male Sprague-Dawley rats with body weight between 230-250 g and age between 6-7 weeks are used. About 25 SD rats are divided into five groups receiving Docetaxel (7 mg/kg, i.v.), PIP (35 mg/kg, p.o.) and their combined administration (DOX+PIP) as well as PIP (3.5 mg/kg, p.o.) and PIP (3.5 mg/kg, i.v.). A day before the drug administrations, the rats are anesthetized. Right jugular vein is cannulated with a polyethylene tubing (0.5 mm ID, 1 mm) for blood collection.
MedChemExpress (MCE) has not independently confirmed the accuracy of these methods. They are for reference only.
Purity & Documentation
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Data Sheet (287 KB)
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SDS (558 KB)
- English - EN (558 KB)
- Français - FR (558 KB)
- Deutsch - DE (558 KB)
- Norwegian - NO (558 KB)
- Español - ES (558 KB)
- Swedish - SV (558 KB)
- Italian - IT (558 KB)
- Portuguese - PT (558 KB)
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Handling Instructions (2659 KB)
References
[1]. Attia RT, et al. The chemomodulatory effects of glufosfamide on docetaxel cytotoxicity in prostate cancer cells. PeerJ. 2016 Jun 29;4:e2168. [Content Brief]
[2]. Che CL, et al. DNA microarray reveals different pathways responding to NSC 125973 and docetaxel in non-small cell lung cancer cell line. Int J Clin Exp Pathol. 2013 Jul 15;6(8):1538-48. [Content Brief]
[3]. Obi-Ioka Y, et al. Involvement of Wee1 in the circadian rhythm dependent intestinal damage induced by docetaxel. J Pharmacol Exp Ther. 2013 Oct;347(1):242-8. [Content Brief]
[4]. Li C, et al. Non-linear pharmacokinetics of piperine and its herb-drug interactions with docetaxel in Sprague-Dawley rats. J Pharm Biomed Anal. 2016 Sep 5;128:286-93. [Content Brief]
Complete Stock Solution Preparation Table
Please refer to the solubility information to select the appropriate solvent. Once prepared, please aliquot and store the solution to prevent product inactivation from repeated freeze-thaw cycles.
Storage method and period of stock solution: -80°C, 1 year; -20°C, 6 months (protect from light). When stored at -80°C, please use it within 1 year. When stored at -20°C, please use it within 6 months.
| Optional Solvent | Concentration Solvent Mass | 1 mg | 5 mg | 10 mg | 25 mg |
|---|---|---|---|---|---|
| Ethanol / DMSO | 1 mM | 1.2378 mL | 6.1890 mL | 12.3781 mL | 30.9452 mL |
| 5 mM | 0.2476 mL | 1.2378 mL | 2.4756 mL | 6.1890 mL | |
| 10 mM | 0.1238 mL | 0.6189 mL | 1.2378 mL | 3.0945 mL | |
| 15 mM | 0.0825 mL | 0.4126 mL | 0.8252 mL | 2.0630 mL | |
| 20 mM | 0.0619 mL | 0.3095 mL | 0.6189 mL | 1.5473 mL | |
| 25 mM | 0.0495 mL | 0.2476 mL | 0.4951 mL | 1.2378 mL | |
| 30 mM | 0.0413 mL | 0.2063 mL | 0.4126 mL | 1.0315 mL | |
| 40 mM | 0.0309 mL | 0.1547 mL | 0.3095 mL | 0.7736 mL | |
| 50 mM | 0.0248 mL | 0.1238 mL | 0.2476 mL | 0.6189 mL | |
| 60 mM | 0.0206 mL | 0.1032 mL | 0.2063 mL | 0.5158 mL | |
| DMSO | 80 mM | 0.0155 mL | 0.0774 mL | 0.1547 mL | 0.3868 mL |
| 100 mM | 0.0124 mL | 0.0619 mL | 0.1238 mL | 0.3095 mL |