Discovery of GNF-5837, a Selective TRK Inhibitor with Efficacy in Rodent Cancer Tumor Models

Pam Albaugh; Yi Fan; Yuan Mi; Fangxian Sun; Francisco Adrian; Nanxin Li; Yong Jia; Yelena Sarkisova; Andreas Kreusch; Tami Hood; Min Lu; Guoxun Liu; Shenlin Huang; Zuosheng Liu; Jon Loren; Tove Tuntland; Donald S Karanewsky; H Martin Seidel; Valentina Molteni

doi:10.1021/ml200261d

Discovery of GNF-5837, a Selective TRK Inhibitor with Efficacy in Rodent Cancer Tumor Models

ACS Med Chem Lett. 2012 Jan 1;3(2):140-5. doi: 10.1021/ml200261d. eCollection 2012 Feb 9.

Authors

Pam Albaugh¹, Yi Fan¹, Yuan Mi¹, Fangxian Sun¹, Francisco Adrian¹, Nanxin Li¹, Yong Jia¹, Yelena Sarkisova¹, Andreas Kreusch¹, Tami Hood¹, Min Lu¹, Guoxun Liu¹, Shenlin Huang¹, Zuosheng Liu¹, Jon Loren¹, Tove Tuntland¹, Donald S Karanewsky¹, H Martin Seidel¹, Valentina Molteni¹

Affiliation

¹ Genomics Institute of the Novartis Research Foundation (GNF), 10675 John Jay Hopkins Drive, San Diego, California 92121, United States.

Abstract

Neurotrophins and their receptors (TRKs) play key roles in the development of the nervous system and the maintenance of the neural network. Accumulating evidence points to their role in malignant transformations, chemotaxis, metastasis, and survival signaling and may contribute to the pathogenesis of a variety of tumors of both neural and non-neural origin. By screening the GNF kinase collection, a series of novel oxindole inhibitors of TRKs were identified. Optimization led to the identification of GNF-5837 (22), a potent, selective, and orally bioavailable pan-TRK inhibitor that inhibited tumor growth in a mouse xenograft model derived from RIE cells expressing both TRKA and NGF. The properties of 22 make it a good tool for the elucidation of TRK biology in cancer and other nononcology indications.

Keywords: GNF-5837; NGF; TRK; neurotrophins; oxindole; tropomyosin receptor kinase.