Evaluation of KRASG12C inhibitor responses in novel murine KRASG12C lung cancer cell line models

Daniel J Sisler; Trista K Hinz; Anh T Le; Emily K Kleczko; Raphael A Nemenoff; Lynn E Heasley

doi:10.3389/fonc.2023.1094123

Evaluation of KRAS^G12C inhibitor responses in novel murine KRAS^G12C lung cancer cell line models

Front Oncol. 2023 Feb 8:13:1094123. doi: 10.3389/fonc.2023.1094123. eCollection 2023.

Authors

Daniel J Sisler^{1

2}, Trista K Hinz^{1

2}, Anh T Le³, Emily K Kleczko³, Raphael A Nemenoff³, Lynn E Heasley^{1

2}

Affiliations

¹ Department of Craniofacial Biology, University of Colorado Anschutz Medical Campus, Aurora, CO, United States.
² Eastern Colorado VA Healthcare System, Rocky Mountain Regional VA Medical Center, Aurora, CO, United States.
³ Department of Medicine, University of Colorado Anschutz Medical Campus, Aurora, CO, United States.

Abstract

Introduction: The KRAS(G12C) mutation is the most common genetic mutation in North American lung adenocarcinoma patients. Recently, direct inhibitors of the KRAS^G12C protein have been developed and demonstrate clinical response rates of 37-43%. Importantly, these agents fail to generate durable therapeutic responses with median progression-free survival of ~6.5 months.

Methods: To provide models for further preclinical improvement of these inhibitors, we generated three novel murine KRAS^G12C-driven lung cancer cell lines. The co-occurring NRAS^Q61L mutation in KRAS^G12C-positive LLC cells was deleted and the KRAS^G12V allele in CMT167 cells was edited to KRAS^G12C with CRISPR/Cas9 methods. Also, a novel murine KRAS^G12C line, mKRC.1, was established from a tumor generated in a genetically-engineered mouse model.

Results: The three lines exhibit similar in vitro sensitivities to KRAS^G12C inhibitors (MRTX-1257, MRTX-849, AMG-510), but distinct in vivo responses to MRTX-849 ranging from progressive growth with orthotopic LLC-NRAS KO tumors to modest shrinkage with mKRC.1 tumors. All three cell lines exhibited synergistic in vitro growth inhibition with combinations of MRTX-1257 and the SHP2/PTPN11 inhibitor, RMC-4550. Moreover, treatment with a MRTX-849/RMC-4550 combination yielded transient tumor shrinkage in orthotopic LLC-NRAS KO tumors propagated in syngeneic mice and durable shrinkage of mKRC.1 tumors. Notably, single-agent MRTX-849 activity in mKRC.1 tumors and the combination response in LLC-NRAS KO tumors was lost when the experiments were performed in athymic nu/nu mice, supporting a growing literature demonstrating a role for adaptive immunity in the response to this class of drugs.

Discussion: These new models of murine KRAS^G12C mutant lung cancer should prove valuable for identifying improved therapeutic combination strategies with KRAS^G12C inhibitors.

Keywords: AMG-510; KRAS; MRTX-1257; lung cancer; orthotopic model.

Grants and funding

This study was supported by VA Merit award 1BX004751 to LEH, DOD/LCRP grant W81XWH1910220 to LEH and RAN, research funds provided by the University of Colorado Thoracic Oncology Research Initiative and the University of Colorado Cancer Center Core Grant P30 CA046934.