RT Journal Article SR Electronic T1 SHP2 Inhibition Abrogates Adaptive Resistance to KRASG12C-Inhibition and Remodels the Tumor Microenvironment of KRAS-Mutant Tumors JF bioRxiv FD Cold Spring Harbor Laboratory SP 2020.05.30.125138 DO 10.1101/2020.05.30.125138 A1 Carmine Fedele A1 Shuai Li A1 Kai Wen Teng A1 Connor Foster A1 David Peng A1 Hao Ran A1 Paolo Mita A1 Mitchell Geer A1 Takamitsu Hattori A1 Akiko Koide A1 Yubao Wang A1 Kwan H. Tang A1 Joshua Leinwand A1 Wei Wang A1 Brian Diskin A1 Jiehui Deng A1 Ting Chen A1 Igor Dolgalev A1 Ugur Ozerdem A1 George Miller A1 Shohei Koide A1 Kwok-Kin Wong A1 Benjamin G. Neel YR 2020 UL http://biorxiv.org/content/early/2020/05/31/2020.05.30.125138.abstract AB KRAS is the most frequently mutated oncogene in human cancer, and KRAS inhibition has been a longtime therapeutic goal. Recently, inhibitors (G12C-Is) that bind KRASG12C-GDP and react with Cys-12 were developed. Using new affinity reagents to monitor KRASG12C activation and inhibitor engagement, we found that, reflecting its action upstream of SOS1/2, SHP2 inhibitors (SHP2-Is) increased KRAS-GDP occupancy, enhancing G12C-I efficacy. SHP2-Is abrogated feedback signaling by multiple RTKs and blocked adaptive resistance to G12C-Is in vitro, in xenografts, and in syngeneic KRASG12C-mutant pancreatic ductal adenocarcinoma (PDAC) and non-small cell lung cancer (NSCLC) models. Biochemical analysis revealed enhanced suppression of ERK-, MYC-, anti-apoptotic-, and cell-cycle genes, and increased pro-apoptotic gene expression in tumors from combination-treated mice. SHP2-I/G12C-I also evoked favorable changes in the immune microenvironment, decreasing myeloid suppressor cells, increasing CD8+ T cells, and sensitizing tumors to PD-1 blockade. Experiments using cells expressing inhibitor-resistant SHP2 showed that SHP2 inhibition in PDAC cells is required for tumor regression and remodeling of the immune microenvironment, but also revealed direct inhibitory effects on angiogenesis resulting in decreased tumor vascularity. Our results demonstrate that SHP2-I/G12C-I combinations confer a substantial survival benefit in PDAC and NSCLC and identify additional combination strategies for enhancing the efficacy of G12C-Is.Competing Interest StatementB.G.N. is a co-founder, chair of the Scientific Advisory Board, and holds equity in Navire Pharmaceuticals, which is developing SHP2 inhibitors for cancer therapy. He also is co-founder and holds equity in Northern Biologics, consults and has equity in Arvinas, Inc., and is an expert witness for Johnson and Johnson. His spouse holds equity in Arvinas, Gilead, Regeneron, Moderna, and Amgen, the latter of which developed AMG-510. K.K.W. is an equity holder of G1 Therapeutics, Zentalis and Epiphanes and he has consulting/sponsored research agreements with the following: AstraZeneca, Janssen, Pfizer, Novartis, Merck, Ono, and Array (consulting & sponsored research); MedImmune, Mirati, Takeda, TargImmune, and BMS (sponsored research only).