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MEK Inhibition Remodels the Immune Landscape of Mutant <i>KRAS</i> Tumors to Overcome Resistance to PARP and Immune Checkpoint Inhibitors

Bin Yang, Xi Li, Yu Fu, Ensong Guo, Youqiong Ye, Fuxia Li, Si Liu, Rourou Xiao, Chen Liu, Funian Lu, Jia Huang, Tianyu Qin, Leng Han, Guang Peng, Gordon B. Mills, Chaoyang Sun, Gang Chen

2021Cancer Research55 citationsDOIOpen Access PDF

Abstract

Abstract Mutant KRAS tumors are associated with poor outcomes, at least in part, due to decreased therapeutic sensitivity. Here, we show that KRAS mutations are associated with resistance to monotherapy and combination therapy with PARP inhibitors (PARPi) and immune checkpoint blockade with anti–PD-L1 antibodies. In mutant KRAS tumors, inhibition of KRAS signaling with MEK inhibitors (MEKi) triggered and amplified PARPi-induced DNA damage, cytosolic double-stranded DNA accumulation, STING pathway activation, and CD8+ T-cell recruitment. Moreover, MEKi decreased myeloid-derived suppressor cell infiltration, in part, by inhibiting IL6 and GMCSF production. Importantly, addition of MEKi to PARPi and anti–PD-L1 resulted in marked tumor inhibition in immunocompetent mutant KRAS tumor models. This study provides the underlying mechanistic data to support evaluation of PARPi, MEKi, and anti–PD-L1 combination in clinical trials of mutant KRAS tumors. Significance: This study provides key insights into the potential for using MEKi combined with PARPi and anti–PD-L1 for the treatment of all mutant KRAS tumors.

Topics & Concepts

KRASCancer researchImmune checkpointBlockadeSelumetinibPoly ADP ribose polymeraseMutantMedicineImmunotherapyImmune systemBiologyImmunologyCancerDNAInternal medicineReceptorColorectal cancerGenePolymeraseBiochemistryGeneticsPARP inhibition in cancer therapyCAR-T cell therapy researchCancer Immunotherapy and Biomarkers
MEK Inhibition Remodels the Immune Landscape of Mutant <i>KRAS</i> Tumors to Overcome Resistance to PARP and Immune Checkpoint Inhibitors | Litcius