The ability to effectively target mutated KRAS has remained elusive despite decades of research. The recent identification of KRAS G12C inhibitors has provided an effective treatment option for patients harboring this particular mutation and has also provided insight toward targeting other KRAS mutants, including KRAS G12D . MRTX1133 was identified via a structure-based drug design (SBDD) strategy as a potent, selective, and non-covalent KRAS G12D inhibitor directed at the switch II binding pocket. MRTX1133 demonstrated a high-affinity interaction with KRAS G12D with KD or IC50 values each determined at ~0.2 pM or <2 nM using SPR direct binding or HTRF competition assays, respectively. MRTX1133 also demonstrated ~700-fold selectivity for KRAS G12D vs KRAS WT binding utilizing SPR. Interestingly, MRTX1133 demonstrated potent inhibition of active KRAS G12D using an HTRF effector interaction assay with a IC50 value of 9 nM. Insight toward the structural basis of binding of MRTX1133 to both the inactive GDP-bound and active GMPPCP-bound conformations of KRAS G12D is also provided by co-crystal structures. MRTX1133 demonstrated potent inhibition of ERK1/2 phosphorylation and cell viability in KRAS G12D -mutant cell lines with median IC50 values of ~5 nM. Consistent with binding affinity determination in cell-free systems, MRTX1133 demonstrated >1000-fold selectivity for inhibition of ERK1/2 phosphorylation in KRAS G12Dmutant cell lines compared with KRAS WT cell lines. Dose-dependent inhibition of KRASmediated signal transduction was also observed in multiple KRAS G12D -mutant tumor models in vivo. MRTX1133 demonstrated marked tumor regression (>30%) in a subset of KRAS G12Dmutant cell line-and patient-derived xenograft (PDX) models, including 8 out of 11 (73%) pancreatic ductal adenocarcinoma (PDAC) models evaluated. Pharmacological studies and CRISPR-based screens demonstrated co-targeting KRAS G12D in concert with putative feedback or bypass pathways including EGFR and PI3Kα led to enhanced anti-tumor activity relative to targeting each individual protein. Together, these data indicate the feasibility of utilizing SBDD approaches to selectively target alternative KRAS mutant variants with non-covalent, highaffinity small molecules targeting either the active or inactive state of KRAS. In addition, these data illustrate the therapeutic susceptibility and broad dependence of KRAS G12D mutationpositive tumors, including PDAC, on KRAS for tumor cell growth and survival. SignificanceThe development of clinically active KRAS G12C -selective inhibitors represents a milestone achievement for the treatment of cancer; however, the discovery of additional KRAS-mutant selective inhibitors has remained elusive. MRTX1133 is a potent KRAS G12D -selective small molecule inhibitor, is active in vitro and in vivo, induces regression in multiple xenograft tumor models and demonstrates increased anti-tumor activity in rationally designed combinations. These data confirm KRAS G12D functions as an oncogenic driver, including in pancreat...
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