Selective Inhibition of Oncogenic KRAS Output with Small Molecules Targeting the Inactive State

Patricelli, Matthew P.; Janes, Matthew R.; Li, Lian‐Sheng; Hansen, Rasmus; Peters, Ulf; Kessler, Linda; Chen, Yuching; Kucharski, Jeff; Feng, Jun; Ely, Tess; Chen, Jeffrey H.; Firdaus, Sarah J.; Babbar, Anjali; Ren, Pingda; Liu, Yi

doi:10.1158/2159-8290.cd-15-1105

articleCancer DiscoveryJan 6, 2016BRONZE OA

Selective Inhibition of Oncogenic KRAS Output with Small Molecules Targeting the Inactive State

MPMatthew P. Patricelli MRMatthew R. Janes LLLian‐Sheng Li RHRasmus Hansen UPUlf Peters

Wellspring Biosciences (United States)

PubMed

Indexed incrossrefpubmed

Abstract

UNLABELLED: KRAS gain-of-function mutations occur in approximately 30% of all human cancers. Despite more than 30 years of KRAS-focused research and development efforts, no targeted therapy has been discovered for cancers with KRAS mutations. Here, we describe ARS-853, a selective, covalent inhibitor of KRAS(G12C) that inhibits mutant KRAS-driven signaling by binding to the GDP-bound oncoprotein and preventing activation. Based on the rates of engagement and inhibition observed for ARS-853, along with a mutant-specific mass spectrometry-based assay for assessing KRAS activation status, we show that the nucleotide state of KRAS(G12C) is in a state of dynamic flux that can be modulated by upstream signaling…

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Topics & keywords

Topics

Keywords

KRAS
Mutant
Mutation
Nucleotide
Cancer research
Chemistry
Cell biology
Small molecule

UN Sustainable Development Goals

Decent work and economic growth

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