Abstract

As a critical signaling node, ERK1/2 are attractive drug targets, particularly in tumors driven by activation of the MAPK pathway. Utility of targeting the MAPK pathway has been demonstrated by clinical responses to inhibitors of MEK1/2 or RAF kinases in some mutant BRAF-activated malignancies. Unlike tumors with mutations in BRAF, those with mutations in KRAS (>30% of all cancers and >90% of certain cancer types) are generally not responsive to inhibitors of MEK1/2 or RAF. Here, a covalent ERK1/2 inhibitor, CC-90003, was characterized and shown to be active in preclinical models of KRAS-mutant tumors. A unique occupancy assay was used to understand the mechanism of resistance in a KRAS-mutant patient-derived xenograft (PDX) model of colorectal cancer. Finally, combination of CC-90003 with docetaxel achieved full tumor regression and prevented tumor regrowth after cessation of treatment in a PDX model of lung cancer. This effect corresponded to changes in a stemness gene network, revealing a potential effect on tumor stem cell reprograming. IMPLICATIONS: Here, a covalent ERK1/2 inhibitor (CC-90003) is demonstrated to have preclinical efficacy in models of KRAS-mutant tumors, which present a therapeutic challenge for currently available therapies.

Highlights

  • The MAPK signal transduction cascade, consisting of RAS/RAF/ MEK/ERK, is activated in a variety of cancers including melanoma, colorectal cancer, pancreatic adenocarcinoma (PDAC), and lung cancer [1]

  • Subsequent studies have shown that resistance to BRAF inhibition in BRAF-mutant colorectal cancer is largely attributable to EGFR-mediated reactivation of signaling through the MAPK pathway [4, 5]

  • Cell culture All cell lines used in this study were obtained from the American Type Culture Collection (ATCC) and were used for experiments within 15 passages of authentication

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Summary

Introduction

The MAPK signal transduction cascade, consisting of RAS/RAF/ MEK/ERK, is activated in a variety of cancers including melanoma, colorectal cancer, pancreatic adenocarcinoma (PDAC), and lung cancer [1]. Critical nodes of this pathway, BRAF, MEK1/2, and ERK1/2, have been extensively explored as potential therapeutic targets [1]. The response rate of patients with V600E BRAF–mutant metastatic melanoma to Vemurafenib was approximately 80% 2), the response rate of patients with V600E BRAF–mutant colorectal cancer was approximately 5% Despite robust initial responses in BRAF-mutant melanoma patients with prolonged and deep inhibition of the target [6], response is limited to 2 to 18 months [7].

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