Selective KRASG12C inhibitors have been developed to covalently lock the oncogene in the inactive GDP-bound state. Two of these molecules, sotorasib and adagrasib, are approved for the treatment of adult patients with KRASG12C-mutated previously treated advanced non-small cell lung cancer. Drug treatment imposes selective pressures leading to the outgrowth of drug-resistant variants. Mass sequencing from patients' biopsies identified a number of acquired KRAS mutations -both in cis and in trans- in resistant tumors. We demonstrate here that disease progression in vivo can also occur due to adaptive mechanisms and increased KRAS-GTP loading. Using the preclinical tool tri-complex KRASG12C-selective covalent inhibitor, RMC-4998 (also known as RM-029), that targets the active GTP-bound (ON) state of the oncogene, we provide a proof-of-concept that the clinical stage KRASG12C(ON) inhibitor RMC-6291 alone or in combination with KRASG12C(OFF) drugs can be an alternative potential therapeutic strategy to circumvent resistance due to increased KRAS-GTP loading.
RAS-ON inhibition overcomes clinical resistance to KRAS G12C-OFF covalent blockade / M. Nokin, A. Mira, E. Patrucco, B. Ricciuti, S. Cousin, I. Soubeyran, S. San José, S. Peirone, L. Caizzi, S. Vietti Michelina, A. Bourdon, X. Wang, D. Alvarez-Villanueva, M. Martínez-Iniesta, A. Vidal, T. Rodrigues, C. García-Macías, M.M. Awad, E. Nadal, A. Villanueva, A. Italiano, M. Cereda, D. Santamaría, C. Ambrogio. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 15:(2024 Aug 30), pp. 7554.1-7554.18. [10.1038/s41467-024-51828-2]
RAS-ON inhibition overcomes clinical resistance to KRAS G12C-OFF covalent blockade
M. Cereda
Co-ultimo
;
2024
Abstract
Selective KRASG12C inhibitors have been developed to covalently lock the oncogene in the inactive GDP-bound state. Two of these molecules, sotorasib and adagrasib, are approved for the treatment of adult patients with KRASG12C-mutated previously treated advanced non-small cell lung cancer. Drug treatment imposes selective pressures leading to the outgrowth of drug-resistant variants. Mass sequencing from patients' biopsies identified a number of acquired KRAS mutations -both in cis and in trans- in resistant tumors. We demonstrate here that disease progression in vivo can also occur due to adaptive mechanisms and increased KRAS-GTP loading. Using the preclinical tool tri-complex KRASG12C-selective covalent inhibitor, RMC-4998 (also known as RM-029), that targets the active GTP-bound (ON) state of the oncogene, we provide a proof-of-concept that the clinical stage KRASG12C(ON) inhibitor RMC-6291 alone or in combination with KRASG12C(OFF) drugs can be an alternative potential therapeutic strategy to circumvent resistance due to increased KRAS-GTP loading.
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