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- Title
Novel Antineoplastic Inducers of Mitochondrial Apoptosis in Human Cancer Cells.
- Authors
Kesel, Andreas J.
- Abstract
I propose a new strategy to suppress human cancer completely with two entirely new drug compounds exploiting cancer's Warburg effect characterized by a defective mitochondrial aerobic respiration, substituted by cytosolic aerobic fermentation/glycolysis of D-(+)-glucose into L-(+)-lactic acid. The two essentially new drugs, compound 1 [P(op)T(est)162] and compound 3 (PT167), represent new highly symmetric, four-bladed propeller-shaped polyammonium cations. The in vitro antineoplastic highly efficacious drug compound 3 represents a covalent combination of compound 1 and compound 2 (PT166). The intermediate drug compound 2 is an entirely new colchic(in)oid derivative synthesized from colchicine. Compound 2's structure was determined using X-ray crystallography. Compound 1 and compound 3 were active in vitro versus 60 human cancer cell lines of the National Cancer Institute (NCI) Developmental Therapeutics Program (DTP) 60-cancer cell testing. Compound 1 and compound 3 not only stop the growth of cancer cells to ±0% (cancerostatic effect) but completely kill nearly all 60 cancer cells to a level of almost −100% (tumoricidal effect). Compound 1 and compound 3 induce mitochondrial apoptosis (under cytochrome c release) in all cancer cells tested by (re)activating (in most cancers impaired) p53 function, which results in a decrease in cancer's dysregulated cyclin D1 and an induction of the cell cycle-halting cyclin-dependent kinase inhibitor p21Waf1/p21Cip1.
- Subjects
NATIONAL Cancer Institute (U.S.); CANCER cells; CANCER cell growth; CYCLIN-dependent kinases; CYCLIN-dependent kinase inhibitors; WARBURG Effect (Oncology); MITOCHONDRIA; P53 antioncogene
- Publication
Molecules, 2024, Vol 29, Issue 4, p914
- ISSN
1420-3049
- Publication type
Article
- DOI
10.3390/molecules29040914