The consequences of lipid remodelling of adipocyte membranes being functionally distinct from lipid storage in obesity

Ke-di Liu, Animesh Acharjee, Christine Hinz, Sonia Liggi, Antonio Murgia, Julia Denes, Melanie K Gulston, Xinzhu Wang, Yajing Chu, James A West, Robert C Glen, Lee D Roberts, Andrew J Murray, Julian L Griffin

OAI: oai:www.repository.cam.ac.uk:1810/307960 • DOI: 10.17863/CAM.55052

Obesity is a complex disorder where the genome interacts with diet and environmental factors to ultimately influence body mass, composition and shape. Numerous studies have investigated how bulk lipid metabolism of adipose tissue changes with obesity, and in particular how the composition of triglycerides (TGs) changes with increased adipocyte expansion. However, reflecting the analytical challenge posed by examining non-TG lipids in extracts dominated by TGs, the glycerophospholipid (PL) composition of cell membranes has been seldom investigated. PLs contribute to a variety of cellular processes including maintaining organelle functionality, providing an optimised environment for membrane-associated proteins and as pools for metabolites (e.g. choline for one-carbon metabolism and for methylation of DNA). We have conducted a comprehensive lipidomic study of white adipose tissue in mice who become obese either through genetic modification (ob/ob), diet (high fat diet) or a combination of the two using both solid phase extraction and ion mobility to increase coverage of the lipidome. Composition changes in seven classes of lipid (free fatty acids, diglycerides, TGs, phosphatidylcholines, lyso-phosphatidylcholines, phosphatidylethanolamines, and phosphatidylserines) correlated with perturbations in one-carbon metabolism and transcriptional changes in adipose tissue. We demonstrate that changes in TGs that dominate the overall lipid composition of white adipose tissue are distinct from diet-induced alterations of PLs, the predominant components of the cell membranes. PLs correlate better with transcriptional and one-carbon metabolism changes within the cell, suggesting the compositional changes that occur in cell membranes during adipocyte expansion have far-reaching functional consequences. Data is available at MetaboLights under the submission number: MTBLS1775.

DNA Methylation lipidomics Mass Spectrometry one-carbon metabolism phosphatidylcholine White adipose tissue Adipocytes Adipose Tissue Adipose Tissue White Animals Lipid Metabolism lipidomics Mice Mice Inbred C57BL obesity