[PDF][PDF] KRAS dimerization impacts MEK inhibitor sensitivity and oncogenic activity of mutant KRAS
Cell, 2018•cell.com
The mechanism by which the wild-type KRAS allele imparts a growth inhibitory effect to
oncogenic KRAS in various cancers, including lung adenocarcinoma (LUAD), is poorly
understood. Here, using a genetically inducible model of KRAS loss of heterozygosity
(LOH), we show that KRAS dimerization mediates wild-type KRAS-dependent fitness of
human and murine KRAS mutant LUAD tumor cells and underlies resistance to MEK
inhibition. These effects are abrogated when wild-type KRAS is replaced by KRAS D154Q, a …
oncogenic KRAS in various cancers, including lung adenocarcinoma (LUAD), is poorly
understood. Here, using a genetically inducible model of KRAS loss of heterozygosity
(LOH), we show that KRAS dimerization mediates wild-type KRAS-dependent fitness of
human and murine KRAS mutant LUAD tumor cells and underlies resistance to MEK
inhibition. These effects are abrogated when wild-type KRAS is replaced by KRAS D154Q, a …
Summary
The mechanism by which the wild-type KRAS allele imparts a growth inhibitory effect to oncogenic KRAS in various cancers, including lung adenocarcinoma (LUAD), is poorly understood. Here, using a genetically inducible model of KRAS loss of heterozygosity (LOH), we show that KRAS dimerization mediates wild-type KRAS-dependent fitness of human and murine KRAS mutant LUAD tumor cells and underlies resistance to MEK inhibition. These effects are abrogated when wild-type KRAS is replaced by KRASD154Q, a mutant that disrupts dimerization at the α4-α5 KRAS dimer interface without changing other fundamental biochemical properties of KRAS, both in vitro and in vivo. Moreover, dimerization has a critical role in the oncogenic activity of mutant KRAS. Our studies provide mechanistic and biological insights into the role of KRAS dimerization and highlight a role for disruption of dimerization as a therapeutic strategy for KRAS mutant cancers.
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