Miles A. Keats scite author profile

Miles A. Keats

3Publications

2Citation Statements Received

21Citation Statements Given

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Affiliations

National Cancer Institute, National Institutes of Health, Center for Cancer Research

Publications

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A Nonconserved Histidine Residue on KRAS Drives Paralog Selectivity of the KRASG12D Inhibitor MRTX1133

Keats

Han

Lee

et al. 2023

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MRTX1133 is the first non-covalent inhibitor against the KRASG12D mutant that demonstrated specificity and potency in pre-clinical tumor models. Here, we used isogenic cell lines expressing a single Ras allele to evaluate the selectivity of this compound. In addition to KRASG12D, MRTX1133 showed significant activity against several other KRAS mutants as well as wildtype KRAS protein. In contrast, MRTX1133 exhibited no activity against both G12D and wildtype forms of HRAS and NRAS proteins. Functional analysis revealed that the selectivity of MRTX1133 towards KRAS is associated with its binding to H95 on KRAS, a residue that is not conserved in HRAS and NRAS. Reciprocal mutation of amino acid 95 among the three Ras paralogs resulted in reciprocal change in their sensitivity towards MRTX1133. Thus, H95 is an essential selectivity handle for MRTX1133 towards KRAS. Amino acid diversity at residue 95 could facilitate the discovery of pan-KRAS inhibitors as well as HRAS and NRAS paralog-selective inhibitors.

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A non-conserved histidine residue on KRAS drives paralog selectivity of the KRAS G12D inhibitor MRTX1133

Keats

Han

Lee

et al. 2022

Preprint

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The discovery of small molecule inhibitors against mutant KRAS protein was a recent breakthrough in targeted therapy. Understanding the mechanism of selectivity by KRAS inhibitors and the mechanism of resistance to them can guide the future development of KRAS inhibitors. MRTX1133 was the first non-covalent inhibitor against the KRAS G12D mutant that demonstrated specificity and potency in pre-clinical tumor models. We used isogenic cell lines expressing a single RAS allele to evaluate the selectivity of this compound. We found that in addition to KRAS G12D, MRTX1133 shows significant activity against several other KRAS mutants as well as wildtype KRAS protein. In contrast, MRTX1133 exhibits no activity against both G12D and wildtype forms of HRAS and NRAS proteins. Functional analysis revealed that the selectivity of MRTX1133 towards KRAS is associated with its binding to histidine 95 on KRAS, a residue that is not conserved in HRAS and NRAS. Reciprocal mutation of amino acid 95 among the three RAS paralogs resulted in reciprocal change in their sensitivity towards MRTX1133. Thus, histidine 95 is an essential selectivity handle for MRTX1133 towards KRAS. This knowledge could aid the development of future KRAS-selective inhibitors.

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Abstract B022: A non-conserved histidine residue on KRAS drives paralog selectivity of the KRAS G12D inhibitor MRTX1133

Keats

Han

Lee

et al. 2023

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The discovery of small molecule inhibitors against mutant KRAS protein has been a breakthrough in targeted therapy. MRTX1133 is the first non-covalent inhibitor with selectivity for the mutant KRAS G12D protein. Using isogenic cell lines expressing single Ras allele to test the selectivity of this compound, we found that in addition to KRAS G12D, MRTX1133 shows significant activity against several other KRAS mutants as well as wildtype KRAS protein. In contrast, MRTX1133 exhibits no activity against both G12D and wildtype forms of HRAS and NRAS proteins. Functional analysis revealed that the selectivity of MRTX1133 towards KRAS is associated with its binding to histidine 95 on KRAS, a residue that is not conserved in HRAS and NRAS. Reciprocal mutation of amino acid 95 among the three Ras paralogs resulted in reciprocal change in their sensitivity towards MRTX1133. Thus, histidine 95 is an essential selectivity handle for MRTX1133 towards KRAS. This knowledge could aid the development of other KRAS-selective inhibitors. (Funding: this research was supported by the Intramural Research Program of the National Cancer Institute, NIH) Citation Format: Miles Keats, John Han, Yeon-Hwa Lee, Chih-Shia Lee, Ji Luo. A non-conserved histidine residue on KRAS drives paralog selectivity of the KRAS G12D inhibitor MRTX1133 [abstract]. In: Proceedings of the AACR Special Conference: Targeting RAS; 2023 Mar 5-8; Philadelphia, PA. Philadelphia (PA): AACR; Mol Cancer Res 2023;21(5_Suppl):Abstract nr B022.

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Miles A. Keats

A Nonconserved Histidine Residue on KRAS Drives Paralog Selectivity of the KRASG12D Inhibitor MRTX1133

A non-conserved histidine residue on KRAS drives paralog selectivity of the KRAS G12D inhibitor MRTX1133

Abstract B022: A non-conserved histidine residue on KRAS drives paralog selectivity of the KRAS G12D inhibitor MRTX1133

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