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Pathways Recommended:	Stem Cell/Wnt Cell Cycle/DNA Damage

Results for "

Caspase-independent cell death

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Apoptosis (1) Atg8/LC3 (1) Autophagy (1) Mitochondrial Metabolism (1) mTOR (1) Necroptosis (1) p62 (1) Reactive Oxygen Species (ROS) (1) Ribosomal S6 Kinase (RSK) (1)
By Research Areas:	Cancer (4) Neurological Disease (1)

Targets Recommended: Programmed Cell Death 4 (PDCD4) Caspase DAPK Itk TOPK PD-1/PD-L1 NAMPT ALCAM/CD166 GDNF Receptor VISTA BCL6 Tim3 BMI1

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

BI-6C9 1 Publications Verification	Mitochondrial Metabolism Apoptosis	Neurological Disease
BI-6C9 is a highly specific BH3 interacting domain (Bid) inhibitor, which prevents mitochondrial outer membrane potential (MOMP) and mitochondrial fission, and protects the cells from mitochondrial apoptosis inducing factor (AIF) release and caspase-independent cell death in neurons .

Necrostatin-7 Nec-7	Necroptosis	Cancer
Necrotatin-7 (Nec-7) is a potent necroptosis inhibitor with an EC₅₀ of 10.6 μM. Necrotatin-7 does not inhibit recombinant RIP1 kinase .

Anticancer agent 223	Others	Cancer
Anticancer agent 223 (Compound V-d) is an anticancer agent that triggers cell death through caspase-dependent and caspase-independent mechanisms. Anticancer agent 223 inhibits tumor spheroid formation and resensitizes cisplatin (HY-17394)-resistant A2780 cells to cisplatin (HY-17394) treatment .

Thiobenzanilide 63T	Reactive Oxygen Species (ROS)	Cancer
Thiobenzanilide 63T (63T) is a small molecule that selectively induces cancer cell death in a caspase-independent pathway. Thiobenzanilide 63T induces reactive oxygen species and lipid peroxidation. Thiobenzanilide 63T demonstrates strong cytotoxic activity against a lung-derived cancer cell line. Thiobenzanilide 63T decreases the expression of heme oxygenase (HO-1) in A549 cells .

ICSN3250 hydrochloride	mTOR Autophagy Atg8/LC3 p62 Ribosomal S6 Kinase (RSK)	Cancer
ICSN3250 hydrochloride is a halitulin analogue and a selective mTORC1 inhibitor. ICSN3250 hydrochloride directly binds to mTOR's FRB domain and displaces phosphatidic acid (PA), reversing mTORC1 activation. ICSN3250 hydrochloride shows high cytotoxicity in cancer cells (nanomolar concentration) through a caspase-independent cell death mechanism. ICSN3250 hydrochloride specifically inhibits the mTORC1 pathway, inducing autophagy and G0-G1 cell-cycle arrest in cancer cells. ICSN3250 hydrochloride can be used for the study of cancer .

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