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Literature DB >> 30858154

Preclinical Efficacy of Covalent-Allosteric AKT Inhibitor Borussertib in Combination with Trametinib in KRAS-Mutant Pancreatic and Colorectal Cancer.

Jörn Weisner^1,2, Ina Landel^1,2, Christoph Reintjes³, Niklas Uhlenbrock^1,2, Marija Trajkovic-Arsic^4,5, Niklas Dienstbier^4,5, Julia Hardick^1,2, Swetlana Ladigan³, Marius Lindemann^1,2, Steven Smith^1,2, Lena Quambusch^1,2, Rebekka Scheinpflug^1,2, Laura Depta^1,2, Rajesh Gontla^1,2, Anke Unger⁶, Heiko Müller⁶, Matthias Baumann⁶, Carsten Schultz-Fademrecht⁶, Georgia Günther⁷, Abdelouahid Maghnouj³, Matthias P Müller^1,2, Michael Pohl⁸, Christian Teschendorf⁹, Heiner Wolters¹⁰, Richard Viebahn¹¹, Andrea Tannapfel¹², Waldemar Uhl¹³, Jan G Hengstler⁷, Stephan A Hahn¹⁴, Jens T Siveke^15,5, Daniel Rauh^16,2.

Abstract

Aberrations within the PI3K/AKT signaling axis are frequently observed in numerous cancer types, highlighting the relevance of these pathways in cancer physiology and pathology. However, therapeutic interventions employing AKT inhibitors often suffer from limitations associated with target selectivity, efficacy, or dose-limiting effects. Here we present the first crystal structure of autoinhibited AKT1 in complex with the covalent-allosteric inhibitor borussertib, providing critical insights into the structural basis of AKT1 inhibition by this unique class of compounds. Comprehensive biological and preclinical evaluation of borussertib in cancer-related model systems demonstrated a strong antiproliferative activity in cancer cell lines harboring genetic alterations within the PTEN, PI3K, and RAS signaling pathways. Furthermore, borussertib displayed antitumor activity in combination with the MEK inhibitor trametinib in patient-derived xenograft models of mutant KRAS pancreatic and colon cancer. SIGNIFICANCE: Borussertib, a first-in-class covalent-allosteric AKT inhibitor, displays antitumor activity in combination with the MEK inhibitor trametinib in patient-derived xenograft models and provides a starting point for further pharmacokinetic/dynamic optimization. ©2019 American Association for Cancer Research.

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Year: 2019 PMID： 30858154 DOI： 10.1158/0008-5472.CAN-18-2861

Source DB: PubMed Journal: Cancer Res ISSN： 0008-5472 Impact factor: 12.701

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Cited

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