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Results for "

human prostate cancer LNCaP cells

" in MedChemExpress (MCE) Product Catalog:

19

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2

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6

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Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-N11908
    α-Santalol

    cis-α-Santalol

    		 Akt Survivin Apoptosis Caspase PARP Metabolic Disease Cancer
    α-Santalol (cis-α-Santalol), a naturally occurring sesquiterpene, is an orally active anticancer agent and apoptosis inducer. α-Santalol activates caspase-3 to drive apoptotic processes. >α-Santalol induces apoptosis, decreases cell viability, and causes PARP cleavage in human prostate cancer cells. α-santalol inhibits Akt/Survivin pathway to induce cell death. α-Santalol can be used for the research of prostate cancer and diabetes mellitus .
    α-Santalol
  • HY-16079
    AZD3514
    3 Publications Verification

    		 Androgen Receptor Cancer
    AZD3514 is an orally activie and selective androgen receptor (AR) inhibitor. AZD3514 androgen-dependently and -independently inhibits AR signal. AZD351 down-regulates nuclear AR levels in human LNCaP prostate cancer cells in the absence of androgen with an pIC50 value of 5.75. AZD3514 can be used for the research of prostate cancer .
    AZD3514
  • HY-N0475
    Triptophenolide

    Hypolide; (+)-Triptophenolide

    		 Androgen Receptor Pyroptosis Caspase Bcl-2 Family Apoptosis Inflammation/Immunology Cancer
    Triptophenolide (Hypolide) is a colorless crystal isolated from the ethyl acetate extract of Tripterygium wilfordii. Triptophenolide is an orally active pan‑antagonist of the androgen receptor (AR) with an IC50 of 467 nM against human wild‑type AR. Triptophenolide reduces AR expression, inhibits AR nuclear translocation, downregulates prostate‑specific antigen mRNA levels, and suppresses the growth of AR‑positive prostate cancer cells. Triptophenolide shows anti-tumor effects against breast cancer by inhibiting cell proliferation and migration, inducing G1-phase arrest and apoptosis, repressing xenograft tumor growth. Triptophenolide inhibits pyroptosis, alleviates tissue inflammation, and ameliorates synovial injury. Triptophenolide can be used for the study of prostate cancer, rheumatoid arthritis and breast cancer .
    Triptophenolide
  • HY-149091
    KDM5B-IN-4

    		Histone Demethylase Cancer
    KDM5B-IN-4 (compound 11ad) is a lysine demethylase 5B (KDM5B) inhibitor with an IC50 of 0.025 μM KDM5B-IN-4 increases substrate H3K4me1/2/3 level by inhibiting KDM5B in PC-3 cells. KDM5B-IN-4 downregulates PI3K/AKT. KDM5B-IN-4 reduces tumor volume in mice and shows less toxic to organs .
    KDM5B-IN-4
  • HY-148152A
    PSMA I&S TFA

    		PSMA Cancer
    PSMA I&S TFA is a PSMA-targeted imaging agent. PSMA I&S TFA undergoes PSMA-mediated internalization into PSMA-expressing cells, with uptake into PSMA-positive tissues competitively inhibited by a potent PSMA inhibitor. PSMA I&S TFA can be used for the research of prostate cancer .
    PSMA I&S TFA
  • HY-114256
    EC1169

    		PSMA Cancer
    EC1169 is a cytotoxic maytansinoid conjugate that specifically binds to prostate-specific membrane antigen (PSMA). EC1169 precisely delivers the maytansinoid B hydrazide payload to PSMA-positive cells to exert antitumor activity. EC1169 only inhibits the growth of PSMA-positive cells but has no effect on PSMA-negative cells, and enables complete recovery in mice bearing PSMA-positive tumors. EC1169 exhibits safety with no body weight loss or major organ damage induced. EC1169 is used in studies of prostate cancer and other PSMA-expressing malignancies .
    EC1169
  • HY-176128
    BWA-6047

    		PROTACs Androgen Receptor Apoptosis PARP Caspase Cancer
    BWA-6047 is an oral active PROTAC degrader targeting AR/AR-V7 and GSPT1 with DC50 values of 3.7, 3.0 and 1.2 nM in 22Rv1 cells. BWA-6047 suppresses the expression of AR downstream target genes and and transcriptional activity. BWA-6047 inhibits cancer cells proliferation, causes G1 phase cell cycle arrest and induces apoptosis. BWA-6047 increases cleaved-PARP-1 and cleaved-caspase-3 levels. BWA-6047 reduces growth of LNCaP xenograft tumors in mice models without obvious toxicity. BWA-6047 can be used for the research of prostate cancer .
    BWA-6047
  • HY-N16066
    Candidusin A

    CHNQD-0803

    		 AMPK Apoptosis NF-κB TNF Receptor Inflammation/Immunology
    Candidusin A (CHNQD-0803) (Compound 4) is a AMPK activator with a KD of 47.28 nM. Candidusin A can be isolated from marine fungus Aspergillus candidus. Candidusin A has cytotoxic activity and induces apoptosis in human prostate cancer cells (22Rv1, PC-3 and LNCaP cells). Candidusin A reduces adipogenesis genes expression and fat deposition, negatively regulates the NF-κB-TNFα inflammatory axis to suppress inflammation, and ameliorates liver injury and fibrosis. Candidusin A can be used for non-alcoholic steatohepatitis (NASH) research .
    Candidusin A
  • HY-118091A
    Bexlosteride

    LY300502

    		 5 alpha Reductase Cancer
    Bexlosteride (LY300502) is a benzoquinolinone human type I 5α-reductase inhibitor. Bexlosteride shows metabolic inhibitory, antiproliferative, and antisecretory effects in LNCaP human prostatic adenocarcinoma cell cultures. Bexlosteride can be used for the research of prostatic cancer .
    Bexlosteride
  • HY-N15449
    Vicanicin

    		HSP Caspase Apoptosis Reactive Oxygen Species (ROS) Bcl-2 Family Cancer
    Vicanicin is a depsidone compound found in lichens. Vicanicin inhibits the expression of Hsp70, regulates the redox-sensitive mechanisms within cells, promotes the increase of reactive oxygen species (ROS) in cancer cells, changes the Bax/Bcl-2 ratio, activates caspase-3, and triggers apoptosis. Vicanicin inhibits cell growth and induces apoptosis in androgen-sensitive (LNCaP) and androgen-insensitive (DU-145) human prostate cancer cells. Vicanicin is promising for research of prostate cancer .
    Vicanicin
  • HY-141830
    SYY-B029-2

    		Histone Acetyltransferase Cancer
    SYY-B029-2 is a potent histone acetyltransferase (HAT) inhibitor with an IC50 of 1.4 nM. SYY-B029-2 cell growth of human mantle cell lymphoma (MCL) cell line MAVER-1 and human castration resistant prostate cancer cell line LNCaP clone FGC, with IC50 values of 15 nM and 13 nM, respectively .
    SYY-B029-2
  • HY-N10265
    Stephacidin B

    		Endogenous Metabolite Cancer
    Stephacidin B is a fungal metabolite. Stephacidin B shows in vitro cytotoxicity against a panel of human tumor cell lines. Stephacidin B shows the strongest cytotoxicity against testosterone-dependent prostate LNCaP cancer cells .
    Stephacidin B
  • HY-176160
    Jacaric acid methyl ester

    Methyl jacarate; SFE 19:3

    		 Apoptosis Cancer
    Jacaric acid methyl ester is a methyl ester form of the conjugated PUFA jacaric acid. Jacaric acid can induce apoptosis selectively in human prostate cancer cells. Jacaric acid induces concentration- and time-dependent LNCaP cell death. Jacaric acid methyl ester can be studied in anticancer research .
    Jacaric acid methyl ester
  • HY-W012088
    (Z)-Methyl tetradec-9-enoate

    Myristoleic acid methyl ester; Methyl myristoleate; cis-9-Tetradecenoate methyl ester

    		 Bacterial Apoptosis Infection
    (Z)-Methyl tetradec-9-enoate (Myristoleic acid methyl ester; Methyl myristoleate) is a cytotoxic component extracted from S. repens fruit extract. It induces apoptosis and necrosis in human prostate cancer LNCaP cells. In addition, (Z)-Methyl tetradec-9-enoate found in cheese-making byproducts inhibits Candida albicans germination with a minimum inhibitory concentration (MIC) of 9 μM in vivo.
    (Z)-Methyl tetradec-9-enoate
  • HY-N16404
    Asperindole A

    		Apoptosis Endogenous Metabolite Cancer
    Asperindole A is an indole-diterpene alkaloid. Asperindole A can be isolated from fungus Aspergillus sp. KMM 4676. Asperindole A induces Apoptosis. Asperindole A exerts cytotoxic activity against hormone-resistant and hormone-sensitive prostate cancer cells .
    Asperindole A
  • HY-119694
    Rotenolone

    		Drug Metabolite Mitochondrial Metabolism Cytochrome P450 Cancer
    Rotenolone is a metabolite of Rotenone (HY-B1756), inhibitor of Mitochondrial complex I, and antiproliferative agent, with an IC50 of 137 nM against bovine complex I. Rotenolone undergoes biotransformation via multiple cytochrome P450 isoenzymes in rainbow trout liver microsomes. Rotenolone exhibits anticancer activity against ovarian cancer, breast cancer, prostate cancer, non-small cell lung cancer, and colon cancer. Rotenolone can be used in studies related to ovarian cancer, breast cancer, prostate cancer, non-small cell lung cancer, and colon cancer .
    Rotenolone
  • HY-D3189
    5GluAF-2MeTG

    		Fluorescent Dye PSMA Cancer
    5GluAF-2MeTG is an activatable fluorescent probe targeting the glutamate carboxypeptidase (CP) activity of PSMA (Ex/Em=490/500-600 nm). After being hydrolyzed by PSMA, 5GluAF-2MeTG releases a cell membrane-permeable fluorescent product, and achieves fluorescence activation by disrupting donor-excited photoinduced electron transfer (d-PeT). 5GluAF-2MeTG enables fluorescence imaging of live PSMA-expressing prostate cancer cells in vitro and visualizes the carboxypeptidase activity of PSMA. 5GluAF-2MeTG can be used to detect prostate cancer regions in preclinical excised tissue specimens .
    5GluAF-2MeTG
  • HY-181694
    SeSA-HCPT

    		Topoisomerase HDAC Apoptosis Kinesin RAD51 Cancer
    SeSA-HCPT is an orally active dual-target inhibitor integrating Topo I and HDAC inhibition. SeSA-HCPT induces potent DNA damage, apoptosis, S-phase arrest in prostate cancer cells. SeSA-HCPT inhibits cancer cells proliferation and migration. SeSA-HCPT impairs homologous recombination by suppressing KIF4A-RAD51 signaling. SeSA-HCPT markedly inhibits CRPC tumor growth with minimal systemic toxicity .
    SeSA-HCPT
  • HY-D3347
    DUPA-FITC

    		Fluorescent Dye Cancer
    DUPA-FITC is a fluorescent reagent targeting PSMA, which specifically binds to prostate cancer cells expressing PSMA without non-specific binding to normal blood cells. DUPA-FITC can label PSMA-expressing prostate cancer cells in whole blood, followed by internalization and trafficking to acidic intracellular endosomes, during which the fluorescence is quenched. When combined with flow cytometry and density gradient centrifugation enrichment, DUPA-FITC enables quantitative analysis of circulating tumor cells in peripheral blood samples from prostate cancer patients .
    DUPA-FITC

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