Discovery of a Potent Small-Molecule Antagonist of Inhibitor of Apoptosis (IAP) Proteins and Clinical Candidate for the Treatment of Cancer (GDC-0152)

John A. Flygare; Maureen H. Beresini; Nageshwar Budha; Helen Chan; Iris T. Chan; Sravanthi Cheeti; Frederick Cohen; Kurt Deshayes; Karl F. Doerner; S. Gail Eckhardt; Linda O. Elliott; Bainian Feng; Matthew C. Franklin; Stacy Frankovitz Reisner; Lewis Gazzard; Jason Halladay; S.G. Hymowitz; Hank La; Patricia LoRusso; Brigitte Maurer; Lesley Murray; Emile G. Plise; Clifford Quan; Jean-Philippe Stéphan; Young G. Shin; Jeffrey Tom; Vickie Tsui; Joanne Um; Eugene Varfolomeev; Domagoj Vucic; Andrew J. Wagner; Heidi J.A. Wallweber; Lan Wang; Joseph A. Ware; Zhaoyang Wen; Harvey Wong; Jonathan M. Wong; Melisa L. Wong; Susan Wong; Ron Yu; Kerry Zobel; Wayne J. Fairbrother

doi:10.1021/jm300060k

Discovery of a Potent Small-Molecule Antagonist of Inhibitor of Apoptosis (IAP) Proteins and Clinical Candidate for the Treatment of Cancer (GDC-0152)

John A. Flygare(Genentech), Maureen H. Beresini(Acentech (United States)), Nageshwar Budha(Acentech (United States)), Helen Chan(Acentech (United States)), Iris T. Chan(Acentech (United States)), Sravanthi Cheeti(Acentech (United States)), Frederick Cohen(Acentech (United States)), Kurt Deshayes(Acentech (United States)), Karl F. Doerner(Acentech (United States)), S. Gail Eckhardt(University of Colorado Anschutz Medical Campus), Linda O. Elliott(Acentech (United States)), Bainian Feng(Acentech (United States)), Matthew C. Franklin(Acentech (United States)), Stacy Frankovitz Reisner(Acentech (United States)), Lewis Gazzard(Acentech (United States)), Jason Halladay(Acentech (United States)), S.G. Hymowitz(Wayne State University), Hank La(Acentech (United States)), Patricia LoRusso(Wayne State University), Brigitte Maurer(Wayne State University), Lesley Murray(Acentech (United States)), Emile G. Plise(Acentech (United States)), Clifford Quan(Acentech (United States)), Jean-Philippe Stéphan(Acentech (United States)), Young G. Shin(Acentech (United States)), Jeffrey Tom(Acentech (United States)), Vickie Tsui(Acentech (United States)), Joanne Um(Acentech (United States)), Eugene Varfolomeev(Acentech (United States)), Domagoj Vucic(Acentech (United States)), Andrew J. Wagner(Harvard University), Heidi J.A. Wallweber(Wayne State University), Lan Wang(Acentech (United States)), Joseph A. Ware(Acentech (United States)), Zhaoyang Wen(Acentech (United States)), Harvey Wong(Acentech (United States)), Jonathan M. Wong(Acentech (United States)), Melisa L. Wong(Acentech (United States)), Susan Wong(Acentech (United States)), Ron Yu(Acentech (United States)), Kerry Zobel(Acentech (United States)), Wayne J. Fairbrother(Acentech (United States))

Journal of Medicinal Chemistry

March 13, 2012

10.1021/jm300060k

Cited by 247Open Access

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Abstract

A series of compounds were designed and synthesized as antagonists of cIAP1/2, ML-IAP, and XIAP based on the N-terminus, AVPI, of mature Smac. Compound 1 (GDC-0152) has the best profile of these compounds; it binds to the XIAP BIR3 domain, the BIR domain of ML-IAP, and the BIR3 domains of cIAP1 and cIAP2 with K(i) values of 28, 14, 17, and 43 nM, respectively. These compounds promote degradation of cIAP1, induce activation of caspase-3/7, and lead to decreased viability of breast cancer cells without affecting normal mammary epithelial cells. Compound 1 inhibits tumor growth when dosed orally in the MDA-MB-231 breast cancer xenograft model. Compound 1 was advanced to human clinical trials, and it exhibited linear pharmacokinetics over the dose range (0.049 to 1.48 mg/kg) tested. Mean plasma clearance in humans was 9 ± 3 mL/min/kg, and the volume of distribution was 0.6 ± 0.2 L/kg.

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