Abstract
Abstract Lynch syndrome-associated endometrial cancers (ECs) are defined by germline mutations in DNA mismatch repair genes, including MSH2, MSH6, PMS2, and MLH1. Lynch syndrome (LS) tumors have received increased attention in the therapeutic context as these tumors are microsatellite instable and often reflect increased immune cell infiltration and enhanced response to immunotherapy. However, relatively little attention has been paid to pathogenesis of LS ECs. Women with LS represent an at-risk population who could benefit from cancer interception strategies due to a 60% cumulative lifetime risk of developing EC. We developed a mouse model of MSH2 loss targeted to the uterus to evaluate EC pathogenesis, with the goal of elucidating mechanisms that alter disease penetrance for women with hereditary risk for EC development. Our Progesterone Receptor-Cre Msh2f lox/flox mice (abbreviated Msh2KO) develop ECs that closely mimic human EC. Whole transcriptome profiling of Msh2KO EC and Msh2KO normal endometrium compared to wild-type endometrium identified “Mitochondrial dysfunction” as a significantly altered pathway in Msh2 deficiency, prompting our in-depth evaluation of mitochondrial alterations in Msh2KO mice, MSH2-deficient cell lines, and LS-associated EC patient specimens. We will discuss the impact of MSH2 deficiency across multiple measures of mitochondrial content, integrity, function, and metabolomic analyses in ECs using preclinical models and human tissue studies. Overall, our studies reveal that MSH2-deficient EC is characterized by mitochondrial DNA damage, mitochondrial content reduction, and decreased mitochondrial function. In addition, decreased mitochondrial respiration for energy production facilitates metabolic reprogramming toward glycolysis. We are conducting further studies to define mechanisms underlying mitochondrial defects due to MSH2 loss and opportunities for intervention. Mitochondrial and metabolic aberrations could serve as novel biomarkers for EC development and targets for cancer prevention in women with LS. Citation Format: Melinda S. Yates. Unique metabolic changes in Lynch syndrome-associated endometrial cancer [abstract]. In: Proceedings of the AACR Special Conference on Endometrial Cancer: Transforming Care through Science; 2023 Nov 16-18; Boston, Massachusetts. Philadelphia (PA): AACR; Clin Cancer Res 2024;30(5_Suppl):Abstract nr IA013.
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