Influence of the Human Lipidome on Epicardial Fat Volume in Mexican American Individuals

Ana Cristina Leandro; Laura F Michael; Marcio Almeida; Mikko Kuokkanen; Kevin Huynh; Corey Giles; Thy Duong; Vincent P Diego; Ravindranath Duggirala; Geoffrey D Clarke; John Blangero; Peter J Meikle; Joanne E Curran

doi:10.3389/fcvm.2022.889985

Influence of the Human Lipidome on Epicardial Fat Volume in Mexican American Individuals

Front Cardiovasc Med. 2022 Jun 6:9:889985. doi: 10.3389/fcvm.2022.889985. eCollection 2022.

Authors

Affiliations

¹ Department of Human Genetics and South Texas Diabetes and Obesity Institute, University of Texas Rio Grande Valley School of Medicine, Brownsville, TX, United States.
² Eli Lilly and Company, Indianapolis, IN, United States.
³ Metabolomics Laboratory, Baker Heart and Diabetes Institute, Melbourne, VIC, Australia.
⁴ Baker Department of Cardiometabolic Health, University of Melbourne, Parkville, VIC, Australia.
⁵ Department of Radiology and Research Imaging Institute, University of Texas Health Science Center, San Antonio, TX, United States.

Abstract

Introduction: Cardiovascular disease (CVD) is the leading cause of mortality worldwide and is the leading cause of death in the US. Lipid dysregulation is a well-known precursor to metabolic diseases, including CVD. There is a growing body of literature that suggests MRI-derived epicardial fat volume, or epicardial adipose tissue (EAT) volume, is linked to the development of coronary artery disease. Interestingly, epicardial fat is also actively involved in lipid and energy homeostasis, with epicardial adipose tissue having a greater capacity for release and uptake of free fatty acids. However, there is a scarcity of knowledge on the influence of plasma lipids on EAT volume.

Aim: The focus of this study is on the identification of novel lipidomic species associated with CMRI-derived measures of epicardial fat in Mexican American individuals.

Methods: We performed lipidomic profiling on 200 Mexican American individuals. High-throughput mass spectrometry enabled rapid capture of precise lipidomic profiles, providing measures of 799 unique species from circulating plasma samples. Because of our extended pedigree design, we utilized a standard quantitative genetic linear mixed model analysis to determine whether lipids were correlated with EAT by formally testing for association between each lipid species and the CMRI epicardial fat phenotype.

Results: After correction for multiple testing using the FDR approach, we identified 135 lipid species showing significant association with epicardial fat. Of those, 131 lipid species were positively correlated with EAT, where increased circulating lipid levels were correlated with increased epicardial fat. Interestingly, the top 10 lipid species associated with an increased epicardial fat volume were from the deoxyceramide (Cer(m)) and triacylglycerol (TG) families. Deoxyceramides are atypical and neurotoxic sphingolipids. Triacylglycerols are an abundant lipid class and comprise the bulk of storage fat in tissues. Pathologically elevated TG and Cer(m) levels are related to CVD risk and, in our study, to EAT volume.

Conclusion: Our results indicate that specific lipid abnormalities such as enriched saturated triacylglycerols and the presence of toxic ceramides Cer(m) in plasma of our individuals could precede CVD with increased EAT volume.

Keywords: CMRI; Mexican Americans; cardiovascular disease; epicardial fat volume; lipidomic profiles.

Abstract

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