(824.6) Transcriptome and Mass-Spectrometry-Based Lipidome Reveal a Role of PRMT5 in Membrane Transport and Cholesterol Synthesis in White Adipocytes

Poster Board Number: A467

Xiyue Chen (Purdue University), Zhihao Jia (Purdue University), Shuyi Fang (Indiana University-Purdue University), Feng Yue (Purdue University), Christina Ferreria (Purdue University), Jun Wan (Indiana University-Purdue University, Indiana University, Collaborative Core for Cancer Bioinformatics (C3B) shared by Indiana University Simon Comprehensive Cancer Center and Purdue University Center for Cancer Research, Indiana University), Shihuan Kuang (Purdue University, Purdue University)

Adipose tissue (AT) regulates systemic energy homeostasis, and its dysfunction can result in insulin resistance and other metabolic complications. Protein arginine methyltransferase 5 (PRMT5) catalyzes symmetrical demethylation of arginine residues to modulate protein stability and/or function. Besides its well-studied oncogenic functions, PRMT5 has recently been shown to play a physiological role in AT through poorly understood mechanisms. Here, we combine RNA sequencing and mass-spectrometry-based lipidomic analyses of wildtype and Prmt5 knockout (Prmt5AKO) AT to uncover the molecular mechanisms underlying PRMT5 function. We found that Prmt5AKO alters expression of genes related to metabolism and membrane transport. Specifically, Prmt5AKO induces genes enriched in glucose transport and glycolysis pathways, and suppresses genes encoding fatty acid (FA) transporters. This is accompanied by changes in lipid compositions of TAGs, FAs, and phospholipids. The data indicate that Prmt5AKO disrupts fatty acid metabolism while promoting glucose uptake and glycolysis. Prmt5AKO also promotes cholesterol biogenesis, contributing to hyperlipidemia and hepatic steatosis in mice. The omics data together reveal a previously unappreciated role of PRMT5 in membrane transport that affects glucose metabolism and cholesterol synthesis.

This work was supported by grants from the National Institutes of Health to SK (NIH R01CA212609).