Effects of a Single Bout of Exercise on Transcriptomics and Metabolomics in Adipose Tissue

The national and international prevalence of both obesity and type 2 diabetes has risen dramatically over the last few decades, increasing the need for new therapies to treat these conditions. An established treatment for type 2 diabetes and obesity are regular physical activity and exercise. It has been shown that one single session of exercise can lead to adaptations in the blood and in tissues that improve systemic homeostasis overtime; while acute changes in skeletal muscle also play a critical role in these effects, changes in the adipose tissue and in the peripheral mononuclear cells (PBMCs) that may also contribute to this improvement. However, the beneficial effects of exercise on metabolism through these other tissues have not been intensively investigated. The investigators hypothesize that a single session of exercise will result in changes to white adipose tissue, including changes in metabolites and gene expression, as well as changes in PBMCs, and that these adaptations may play an important role to improve metabolic homeostasis. This hypothesis stems from the investigator's animal-based studies, which have led to the exciting discoveries that 1) exercise training-induced adaptations to subcutaneous white adipose tissue (scWAT) result in significant improvements in whole-body glucose tolerance and insulin sensitivity (1), and 2) the mechanism for this effect may be due to auto-, para-, or endocrine effects of novel exercise-induced circulating factors coming from adipose tissue. Thus, being able to further understand, and potentially mimick, these exercise-induced changes to scWAT could lead to novel therapies for obesity and type 2 diabetes. Given the great interest in exercise mimetics as treatments for diabetes and obesity, it is essential to determine if a single session of exercise alters metabolites as well as gene expression in the scWAT in human subjects with obesity. To determine if a single session of exercise leads to changes in PBMCs, PBMC transcriptomics will be analyzed. This analysis will determine how exercise affects the number of specific cell types in the blood that can regulate metabolic health.