Altiratinib Inhibits Tumor Growth, Invasion, Angiogenesis, and Microenvironment-Mediated Drug Resistance via Balanced Inhibition of MET, TIE2, and VEGFR2

Bryan D. Smith; Michael D. Kaufman; Cynthia B. Leary; Benjamin A. Turner; Scott Wise; Yu Mi Ahn; R J Booth; Timothy M. Caldwell; Carol L. Ensinger; Molly M. Hood; Wei-Ping Lu; Tristan W. Patt; William C. Patt; Thomas J. Rutkoski; T. Samarakoon; Hanumaiah Telikepalli; Lakshminarayana Vogeti; Subha Vogeti; Karen Yates; Lawrence Chun; Lance Stewart; Michael Clare; Daniel L. Flynn

doi:10.1158/1535-7163.mct-14-1105

Altiratinib Inhibits Tumor Growth, Invasion, Angiogenesis, and Microenvironment-Mediated Drug Resistance via Balanced Inhibition of MET, TIE2, and VEGFR2

Bryan D. Smith(Deciphera Pharmaceuticals (United States)), Michael D. Kaufman(Deciphera Pharmaceuticals (United States)), Cynthia B. Leary(Deciphera Pharmaceuticals (United States)), Benjamin A. Turner(Deciphera Pharmaceuticals (United States)), Scott Wise(Deciphera Pharmaceuticals (United States)), Yu Mi Ahn(Deciphera Pharmaceuticals (United States)), R J Booth(Deciphera Pharmaceuticals (United States)), Timothy M. Caldwell(Deciphera Pharmaceuticals (United States)), Carol L. Ensinger(Deciphera Pharmaceuticals (United States)), Molly M. Hood(Deciphera Pharmaceuticals (United States)), Wei-Ping Lu(Deciphera Pharmaceuticals (United States)), Tristan W. Patt(Deciphera Pharmaceuticals (United States)), William C. Patt(Deciphera Pharmaceuticals (United States)), Thomas J. Rutkoski(Deciphera Pharmaceuticals (United States)), T. Samarakoon(Deciphera Pharmaceuticals (United States)), Hanumaiah Telikepalli(Deciphera Pharmaceuticals (United States)), Lakshminarayana Vogeti(Deciphera Pharmaceuticals (United States)), Subha Vogeti(Deciphera Pharmaceuticals (United States)), Karen Yates(Deciphera Pharmaceuticals (United States)), Lawrence Chun(Virginia Mason Bainbridge Island Medical Center), Lance Stewart(Virginia Mason Bainbridge Island Medical Center), Michael Clare(Deciphera Pharmaceuticals (United States)), Daniel L. Flynn(Deciphera Pharmaceuticals (United States))

Molecular Cancer Therapeutics

August 18, 2015

10.1158/1535-7163.mct-14-1105

Cited by 77

Abstract

Altiratinib (DCC-2701) was designed based on the rationale of engineering a single therapeutic agent able to address multiple hallmarks of cancer (1). Specifically, altiratinib inhibits not only mechanisms of tumor initiation and progression, but also drug resistance mechanisms in the tumor and microenvironment through balanced inhibition of MET, TIE2 (TEK), and VEGFR2 (KDR) kinases. This profile was achieved by optimizing binding into the switch control pocket of all three kinases, inducing type II inactive conformations. Altiratinib durably inhibits MET, both wild-type and mutated forms, in vitro and in vivo. Through its balanced inhibitory potency versus MET, TIE2, and VEGFR2, altiratinib provides an agent that inhibits three major evasive (re)vascularization and resistance pathways (HGF, ANG, and VEGF) and blocks tumor invasion and metastasis. Altiratinib exhibits properties amenable to oral administration and exhibits substantial blood-brain barrier penetration, an attribute of significance for eventual treatment of brain cancers and brain metastases.

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