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Caspase-3/9

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Caspase (11) ADC Payload (1) Akt (3) Antibiotic (2) Apoptosis (13) Autophagy (1) Bacterial (2) Bcl-2 Family (6) CaMK (2) CDK (3) DNA Alkylator/Crosslinker (1) DNA/RNA Synthesis (1) Drug Derivative (1) EGFR (1) ERK (1) HIV (1) JNK (2) Mitochondrial Metabolism (1) MMP (3) mTOR (3) NF-κB (2) p38 MAPK (2) PARP (1) Phosphatase (2) PI3K (2) PKC (2) Polo-like Kinase (PLK) (1) Reactive Oxygen Species (ROS) (2) Reference Standards (1) STAT (2) Survivin (1) TGF-beta/Smad (1) VEGFR (1) β-catenin (1)
By Research Areas:	Cancer (13) Cardiovascular Disease (1) Infection (4) Inflammation/Immunology (2) Metabolic Disease (1) Neurological Disease (3)

By Targets:

Caspase (11)

ADC Payload (1)

Akt (3)

Antibiotic (2)

Apoptosis (13)

Autophagy (1)

Bacterial (2)

Bcl-2 Family (6)

CaMK (2)

CDK (3)

DNA Alkylator/Crosslinker (1)

DNA/RNA Synthesis (1)

Drug Derivative (1)

EGFR (1)

ERK (1)

HIV (1)

JNK (2)

Mitochondrial Metabolism (1)

MMP (3)

mTOR (3)

NF-κB (2)

p38 MAPK (2)

PARP (1)

Phosphatase (2)

PI3K (2)

PKC (2)

Polo-like Kinase (PLK) (1)

Reactive Oxygen Species (ROS) (2)

Reference Standards (1)

STAT (2)

Survivin (1)

TGF-beta/Smad (1)

VEGFR (1)

β-catenin (1)

By Research Areas:

Cancer (13)

Cardiovascular Disease (1)

Infection (4)

Inflammation/Immunology (2)

Metabolic Disease (1)

Neurological Disease (3)

Inhibitors & Agonists

Peptides

Natural
Products

Targets Recommended: Caspase

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-108599

DCP-LA 5+ Cited Publications FR236924	PKC CaMK Phosphatase Apoptosis	Neurological Disease
DCP-LA (FR236924), a linoleic acid derivative, selectively and directly activates PKCε. DCP-LA activates Ca( ²⁺)/calmodulin-dependent protein kinase II (CaMKII) and inhibits protein phosphatase-1 (PP-1) to stimulate AMPA receptor exocytosis. DCP-LA inhibits activation of caspase-3/-9 and protects neurons at least in part from oxidative stress-induced apoptosis ^[3].

HY-137371

Lactonic sophorolipid	Bacterial Apoptosis Antibiotic	Infection Cancer
Lactonic sophorolipid is an apoptosis inducer and antimicrobial surfactant with antitumor activity. Lactonic sophorolipid regulates Bax/Bcl-gene expression through *caspase-3/9* and induces apoptosis in tumor cells. Lactonic sophorolipid can disrupt cell membrane permeability and exert antibacterial effects (MIC for oral pathogens is 100-400 μg/mL). Lactonic sophorolipid promotes mitochondrial membrane potential depolarization, activates the intrinsic apoptotic pathway, and can synergize with antibiotics to enhance the antibacterial effect. Lactonic sophorolipid can be used in liver cancer research and the development of oral hygiene antibacterial agents[1][2][3].

HY-114243

DpC	NF-κB JNK Caspase Apoptosis	Neurological Disease Cancer
DpC is a selective, orally active iron chelator with anticancer activity. DpC acts on signaling pathway-related targets such as JNK, NF-κB, and its activity is competitively inhibited by another iron chelator Dp44mT (HY-18973). By chelating intracellular iron and copper ions in tumor cells to form redox-active complexes, DpC induces oxidative stress, activates the JNK, NF-κB pathways and downregulates IκBα, upregulates the expressions of neuroglobin and cytoglobin, activates *caspase 3/9* to induce tumor cell apoptosis. It also overcomes P-glycoprotein-mediated multidrug resistance through a lysosome-targeting mechanism, and exhibits broad-spectrum synergistic effects when combined with various chemotherapeutic agents. DpC inhibits tumor metastasis and increases TNF-α levels in the tumor microenvironment to enhance endogenous immune responses. DpC is applicable to the research of various malignancies including neuroblastoma, pancreatic cancer, prostate cancer, lung cancer, and breast cancer ^[3].

HY-P1823

C-Reactive Protein (CRP) (174-185)	Akt mTOR Caspase	Infection Cardiovascular Disease Metabolic Disease Inflammation/Immunology Cancer
C-Reactive Protein (CRP) is an anti-pneumococcal plasma protein that can serve as an inflammatory marker. C-Reactive protein can protect mice from pneumococcal infection by activating complement. C-Reactive protein can inhibit the activation of *caspase-3/9* through the CD64/AKT/mTOR pathway, thereby promoting chemotherapy resistance in mice with tongue squamous cell carcinoma .

HY-12455

Duocarmycin A	ADC Payload Antibiotic DNA Alkylator/Crosslinker Apoptosis Caspase	Cancer
Duocarmycin A is an antitumor antibiotic and DNA alkylating agent with broad-spectrum antibacterial activity, which can serve as a payload for synthesizing antibody-drug conjugates (ADCs). Duocarmycin A selectively binds to the AT-rich minor groove of DNA, forms covalent adducts by alkylating the adenine N3 residue, thereby disrupting DNA structure and inhibiting its replication and transcription. Duocarmycin A induces apoptosis, sub-G1 phase accumulation and chromatin condensation, reduces the levels of *pro-caspase-3/9, and induces p53-independent p21* expression. Duocarmycin A is widely used in the research of various malignancies, including leukemia, sarcoma, glioblastoma, as well as multiple solid tumor models such as lung cancer, breast cancer, and colorectal cancer ^[3].

HY-N16535

Stigmalactam	Apoptosis Caspase Mitochondrial Metabolism Reactive Oxygen Species (ROS)	Cancer
Stigmalactam is an aristolactam-type alkaloid extracted from Orophea enterocarpa with anticancer effects. Stigmalactam induces apoptosis via the mitochondrial pathway, with the activation of *caspase-3/9, and a decrease in mitochondrial membrane potential (MTP). Stigmalactam exhibits antioxidant activity by decreasing ROS* production. Stigmalactam can be used for liver and breast cancer research .

HY-N6926

1,3,5-Tricaffeoylquinic acid	HIV Apoptosis Caspase VEGFR ERK PI3K Akt mTOR PARP	Infection Cancer
1,3,5-Tricaffeoylquinic acid acts as an angiogenesis inhibitor and apoptosis inducer, and exhibits anti-HIV activity. 1,3,5-Tricaffeoylquinic acid inhibits the phosphorylation of VEGFR2, ERK, PI3K, Akt and mTOR in the angiogenesis signaling pathway. 1,3,5-Tricaffeoylquinic acid regulates apoptosis-related proteins, upregulates the levels of activated caspase-8, Bax, activated PARP and *caspase-3/9, while downregulates the level of Bcl-2*. 1,3,5-Tricaffeoylquinic acid inhibits tube formation and shows cytotoxicity against ovarian cancer cells. 1,3,5-Tricaffeoylquinic acid can be used in studies related to ovarian cancer .

HY-15668

ST09	MMP Bcl-2 Family Caspase Apoptosis Drug Derivative	Cancer
ST09 is an efficient and low toxicity Curcumin (HY-N0005) derivative. ST09 significantly inhibits cell migration and downregulates the expression of MMP1, MMP2, and Vimentin. ST09 has strong cytotoxicity to breast cancer cells, such as MDA-MB-231, MCF7 and T47D cells. ST09 induces cell apoptosis by upregulating Bax and cleaved caspase-3/9. ST09 can be used in the research of cancer such as breast cancer .

HY-N2199

Sotetsuflavone	Apoptosis Autophagy PI3K JNK mTOR p38 MAPK CDK MMP TGF-beta/Smad STAT β-catenin Reactive Oxygen Species (ROS) Bcl-2 Family Caspase	Inflammation/Immunology Cancer
Sotetsuflavone is a flavonoid that can be isolated from Cycas revolute. Sotetsuflavone inhibits phosphorylation of *PI3K, Akt, mTOR, JNK, and p38 MAPK; modulates expression of Cyclin D1, CDK4, Bcl-2, Bax, cleaved caspases 3/9, MMP-9, TGF-β, STAT3, and β-catenin. Sotetsuflavone induces G₀/G₁ cell cycle arrest, apoptosis, autophagy, and intracellular ROS* elevation, inhibits cancer cell proliferation. Sotetsuflavone inhibits tumor growth in mouse tumor xenograft models. Sotetsuflavone can be used for the research of non-small cell lung cancer and Crohn’s disease ^[3] .

HY-175227

STAT3/NF-κB-IN-1	STAT NF-κB Apoptosis Caspase Bcl-2 Family	Cancer
STAT3/NF-κB-IN-1 is a potentSTAT3 and NF-κB inhibitor with IC₅₀s of 5.86 (STAT3) and 4.22 μM (NF-κB) in 4T1 cells. STAT3/NF-κB-IN-1 is able to induce apoptosis via its upregulation on key apoptotic regulators; *caspases-3/9, Bax* and downregulation of Bcl-2. STAT3/NF-κB-IN-1 exerts considerable anticancer activity against breast cancer cell lines and reduces tumor volume in vivo. STAT3/NF-κB-IN-1 can be used for the study of breast cancer .

HY-108599R

DCP-LA (Standard) FR236924 (Standard)	Reference Standards PKC CaMK Phosphatase Apoptosis	Neurological Disease
DCP-LA (Standard) is the analytical standard of DCP-LA. This product is intended for research and analytical applications. DCP-LA (FR236924), a linoleic acid derivative, selectively and directly activates PKCε. DCP-LA activates Ca(2+)/calmodulin-dependent protein kinase II (CaMKII) and inhibits protein phosphatase-1 (PP-1) to stimulate AMPA receptor exocytosis. DCP-LA inhibits activation of caspase-3/-9 and protects neurons at least in part from oxidative stress-induced apoptosis[1][2][3].

HY-162895

NL13	Polo-like Kinase (PLK) Akt CDK Caspase Apoptosis	Cancer
NL13 is a Polo-like kinase 4 (PLK4) inhibitor with an IC₅₀ value of 2.32 μM. NL13 can inhibit the viability of PC3 and DU145 prostate cancer cells, with IC₅₀ values of 3.51 μM and 2.53 μM, respectively. NL13 can lead to the inactivation of the AKT signaling pathway by downregulating CCNB1/CDK1, inducing G2/M cell cycle arrest, and triggering apoptosis through the cleavage of caspase-9/caspase-3. In prostate cancer mice, NL13 can inhibit tumor growth .

HY-180242

EGFR/CDK2-IN-5	EGFR CDK Apoptosis Caspase Bcl-2 Family	Cancer
EGFR/CDK2-IN-5 is a potent dual EGFR and CDK2 inhibitor with IC₅₀s of 17.30 and 212.10 nM, respectively. EGFR/CDK2-IN-5 also inhibits EGFR ^T790M with an IC₅₀ of 123.8 nM. EGFR/CDK2-IN-5 exhibits potent anticancer activity. EGFR/CDK2-IN-5 induces G1 and S cell cycle arrest and apoptosis, accompanied by increased levels of *caspase-3/9* and Bax, as well as decreased Bcl-2 levels. EGFR/CDK2-IN-5 can be used for the research of cancers, such as lung cancer, breast cancer, and leukemia .

HY-182349

Bax activator-2	Bcl-2 Family	Cancer
Bax activator-2 (compound 27c) is a pro-apoptotic agent targeting BAX, with an IC₅₀ of 0.30 μmol/L against human BAX. Bax activator-2 binds to the trigger site of BAX and induces its conformational change. Bax activator-2 induces mitochondrial depolarization, cytochrome c release, caspase-3/9 cleavage and PARP cleavage, thereby initiating apoptosis. Bax activator-2 exhibits cytotoxicity against various cancer cell lines, shows reduced cytotoxicity in BAX-knockout A549 cells, and has low cytotoxicity against non-cancerous cell lines. Bax activator-2 can be used in studies related to acute myeloid leukemia and solid tumors .

HY-180324

Candidone	Bcl-2 Family Caspase p38 MAPK MMP Apoptosis Bacterial DNA/RNA Synthesis Survivin	Infection Cancer
Candidone is a type of flavanone phenolic compound with anti-cancer and antibacterial activities. Candidone inhibits the proliferation of hepatoblastoma and cholangiocarcinoma cells and induces their apoptosis by up-regulating p21, Bax, and *caspase 3/9, and down-regulating Bcl-2* and survivin. It reduces the metastatic ability of cancer cells by inhibiting the expression of phosphorylated p38 and matrix metalloproteinase MMP-9. Candidone has inhibitory effects on multidrug-resistant bacterial strains. Candidone binds to the base pairs of DNA in a groove-binding manner, thereby slightly altering the conformation of DNA ^[3].

Cat. No.	Product Name	Target	Research Area

HY-P1823

C-Reactive Protein (CRP) (174-185)	Akt mTOR Caspase	Infection Cardiovascular Disease Metabolic Disease Inflammation/Immunology Cancer
C-Reactive Protein (CRP) is an anti-pneumococcal plasma protein that can serve as an inflammatory marker. C-Reactive protein can protect mice from pneumococcal infection by activating complement. C-Reactive protein can inhibit the activation of *caspase-3/9* through the CD64/AKT/mTOR pathway, thereby promoting chemotherapy resistance in mice with tongue squamous cell carcinoma .

Stigmalactam	Structural Classification Alkaloids Pyrrole Alkaloids Piperaceae Plants Annonaceae Orophea enterocarpa Maingay ex Hook.f. Piper boehmeriifolium (Miq.) Wall. ex C. DC. Source Classification	Apoptosis Caspase Mitochondrial Metabolism Reactive Oxygen Species (ROS)
Stigmalactam is an aristolactam-type alkaloid extracted from Orophea enterocarpa with anticancer effects. Stigmalactam induces apoptosis via the mitochondrial pathway, with the activation of *caspase-3/9, and a decrease in mitochondrial membrane potential (MTP). Stigmalactam exhibits antioxidant activity by decreasing ROS* production. Stigmalactam can be used for liver and breast cancer research .

1,3,5-Tricaffeoylquinic acid	Infection Structural Classification other families Classification of Application Fields Ketones, Aldehydes, Acids Phenols Polyphenols Plants Disease Research Fields Source Classification	HIV Apoptosis Caspase VEGFR ERK PI3K Akt mTOR PARP
1,3,5-Tricaffeoylquinic acid acts as an angiogenesis inhibitor and apoptosis inducer, and exhibits anti-HIV activity. 1,3,5-Tricaffeoylquinic acid inhibits the phosphorylation of VEGFR2, ERK, PI3K, Akt and mTOR in the angiogenesis signaling pathway. 1,3,5-Tricaffeoylquinic acid regulates apoptosis-related proteins, upregulates the levels of activated caspase-8, Bax, activated PARP and *caspase-3/9, while downregulates the level of Bcl-2*. 1,3,5-Tricaffeoylquinic acid inhibits tube formation and shows cytotoxicity against ovarian cancer cells. 1,3,5-Tricaffeoylquinic acid can be used in studies related to ovarian cancer .

Sotetsuflavone	Structural Classification Flavonoids Classification of Application Fields Phenols Polyphenols Selaginellaceae Plants Biflavones Selaginella tamariscina (P. Beauv.) Spring Disease Research Fields Source Classification Cancer	Apoptosis Autophagy PI3K JNK mTOR p38 MAPK CDK MMP TGF-beta/Smad STAT β-catenin Reactive Oxygen Species (ROS) Bcl-2 Family Caspase
Sotetsuflavone is a flavonoid that can be isolated from Cycas revolute. Sotetsuflavone inhibits phosphorylation of *PI3K, Akt, mTOR, JNK, and p38 MAPK; modulates expression of Cyclin D1, CDK4, Bcl-2, Bax, cleaved caspases 3/9, MMP-9, TGF-β, STAT3, and β-catenin. Sotetsuflavone induces G₀/G₁ cell cycle arrest, apoptosis, autophagy, and intracellular ROS* elevation, inhibits cancer cell proliferation. Sotetsuflavone inhibits tumor growth in mouse tumor xenograft models. Sotetsuflavone can be used for the research of non-small cell lung cancer and Crohn’s disease ^[3] .

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