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MYC-mediated resistance to trametinib and HCQ in PDAC is overcome by CDK4/6 and lysosomal inhibition

Mark R. Silvis, Dilru Silva, Riley Rohweder, Sophia Schuman, Swapna Aravind Gudipaty, Amanda Truong, Jeffrey T. Yap, Kajsa E. Affolter, Martin McMahon, Conan G. Kinsey

2023The Journal of Experimental Medicine49 citationsDOIOpen Access PDF

Abstract

Pharmacological inhibition of KRAS>RAF>MEK1/2>ERK1/2 signaling has provided no clinical benefit to patients with pancreatic ductal adenocarcinoma (PDAC). Interestingly, combined inhibition of MEK1/2 (with trametinib [T]) plus autophagy (with chloroquine [CQ] or hydroxychloroquine [HCQ]) demonstrated striking anti-tumor effects in preclinical models and in a patient (Patient 1). However, not all patients respond to the T/HCQ regimen, and Patient 1 eventually developed resistant disease. Here we report that primary or acquired resistance is associated with focal DNA copy number gains encompassing c-MYC. Furthermore, ectopic expression of c-MYC in PDAC cell lines rendered them T/HCQ resistant. Interestingly, a CDK4/6 inhibitor, palbociclib (P), also induced autophagy and overrode c-MYC-mediated T/HCQ resistance, such that P/HCQ promoted regression of T/HCQ-resistant PDAC tumors with elevated c-MYC expression. Finally, P/HCQ treatment of Patient 1 resulted in a biochemical disease response. These data suggest that elevated c-MYC expression is both a marker and a mediator of T/HCQ resistance, which may be overcome by the use of P/HCQ.

Topics & Concepts

TrametinibCancer researchKinaseChemistryCell biologyBiologyMAPK/ERK pathwayChronic Lymphocytic Leukemia ResearchHistone Deacetylase Inhibitors ResearchMultiple Myeloma Research and Treatments
MYC-mediated resistance to trametinib and HCQ in PDAC is overcome by CDK4/6 and lysosomal inhibition | Litcius