Structure Guided Optimization, in Vitro Activity, and in Vivo Activity of Pan-PIM Kinase Inhibitors

Matthew T. Burger, Wooseok Han, Jiong Lan, Gisele Nishiguchi, Cornelia Bellamacina, Mika Lindval, Gordana Atallah, Yu Ding, Michelle Mathur, Chris McBride, Elizabeth L. Beans, Kristine Muller, Victoriano Tamez, Yanchen Zhang, Kay Huh, Paul Feucht(Novartis (Switzerland)), Tatiana Zavorotinskaya(Novartis (Switzerland)), Yumin Dai(Novartis (Switzerland)), Jocelyn Holash(Novartis (Switzerland)), Joseph Castillo(Novartis (Switzerland)), John L. Langowski(Novartis (Switzerland)), Yingyun Wang(Novartis (Switzerland)), Min Y. Chen(Novartis (Switzerland)), Pablo D. García(Novartis (Switzerland))
ACS Medicinal Chemistry Letters
October 15, 2013
10.1021/ml400307j
Cited by 53Open Access
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Abstract

Proviral insertion of Moloney virus (PIM) 1, 2, and 3 kinases are serine/threonine kinases that normally function in survival and proliferation of hematopoietic cells. As high expression of PIM1, 2, and 3 is frequently observed in many human malignancies, including multiple myeloma, non-Hodgkins lymphoma, and myeloid leukemias, there is interest in determining whether selective PIM inhibition can improve outcomes of these human cancers. Herein, we describe our efforts toward this goal. The structure guided optimization of a singleton high throughput screening hit in which the potency against all three PIM isoforms was increased >10,000-fold to yield compounds with pan PIM K is < 10 pM, nanomolar cellular potency, and in vivo activity in an acute myeloid leukemia Pim-dependent tumor model is described.

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