Abstract 3697: Modulation of Nicotinamide N-Methyl Transferase (NNMT) expression in TNBC is associated with altered cell membrane cholesterol levels

Abstract

Abstract Introduction: Cancer cells often develop a program of metabolic adaptability and epigenetic remodelling to promote gene expression changes causing cancerous cell proliferation and invasion. The metabolic-epigenetic axis as a an underlying mechanism of carcinogenesis could lead to new approaches to cancer treatment. Nicotinamide N-Methyl Transferase (NNMT) is a metabolic enzyme that catalyzes the transfer of a methyl group from S-Adenosyl methionine (SAM) to nicotinamide, thereby decreasing the overall methyl pools for RNA, histone and DNA methylation. High NNMT expression has been previously associated with a poor outcome in TNBC. Hypothesis: We hypothesized that high versus low NNMT activity and resulting oncogenic gene expression in TNBC may alter histone methylation is association with altered metabolic pathway activation. Methods: We used two TNBC cell lines models, MDA-MB 231 and SUM159, to study the association between high versus low NNMT activity and metabolic pathway activation. Surprisingly, we identified gene expression pathways suggestive of increased free cholesterol biosynthesis gene expression with low NNMT, and then used biochemical assays and filipin to measure free cholesterol in both total high and low NNMT TNBC cell lysates and relative cholesterol expression in the High vs Low NNMT cell membranes. Results: In vitro, NNMT knockdown resulted in increased cholesterol synthetic pathway enzyme expression in both TNBC cell lines. In vivo studies also showed that protein expression of cholesterol synthesis enzymes was also increased in NNMT-depleted MDA-MB 231 xenografted tumors. Interestingly, the increased cholesterol level upon NNMT depletion was mainly localized at the plasma membrane via Filipin III staining, suggesting a possible association with less cellular membrane fluidity and a decreased oncogenic phenotype. In ongoing experiments, we are evaluating whether changes in histone methylation in high vs low NNMT cells are associated with differential expression of cholesterol biosynthetic genes, and free cholesterol production. We hypothesize that NNMT might epigenetically decrease the methylation of histones regulating cholesterol production in TNBC. Citation Format: Woei-Yaw Chee, Deniz Nesli Dolcen, Lynda Bennett, Suzanne D. Conzen. Modulation of Nicotinamide N-Methyl Transferase (NNMT) expression in TNBC is associated with altered cell membrane cholesterol levels. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 3697.