AI Article Synopsis
- MAT2A is a promising target for cancer treatment, especially in tumors with MTAP gene deletion, but there are challenges in ensuring the selectivity of MAT2A inhibitors for these specific cancers.
- Recent research led to the identification of new MAT2A inhibitors with a unique 2(1)-quinoxalinone structure that effectively inhibit MAT2A and selectively target MTAP-deficient cancer cells.
- One of the novel compounds demonstrated strong pharmacokinetic properties and showed enhanced anticancer effects in models with MTAP-deficient tumors, highlighting potential advancements in drug development for these cancer types.
Article Abstract
Methionine adenosyltransferase 2A (MAT2A) has emerged as a synthetic lethal drug target in cancers bearing homozygous methylthioadenosine phosphorylase (MTAP) gene deletion. Despite the remarkable progress in the discovery and development of MAT2A inhibitors, current understanding about the selectivity of these compounds toward MTAP-deficient cancers is relatively limited. To improve the selectivity of MAT2A inhibitors for MTAP-deficient cancers remains a significant challenge. We herein reported the discovery of a series of novel MAT2A inhibitors with a 2(1)-quinoxalinone scaffold through structure-based drug design and systematic SAR exploration. Among them, compound exhibited good inhibitory activity against the enzymatic activity of MAT2A, and the significantly improved selectivity in killing MTAP-deficient cancer cells. Compound also showed favorable pharmacokinetic properties and the improved in vivo anticancer activity in MTAP-deficient tumor models. These findings suggest new directions for the discovery and development of highly selective MAT2A inhibitors.
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| http://dx.doi.org/10.1021/acs.jmedchem.4c01635 | DOI Listing |
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