Lipolysis in lipid turnover, cancer cachexia, and obesity-induced insulin resistance

P Arner, D Langin - Trends in Endocrinology & Metabolism, 2014 - cell.com
Trends in Endocrinology & Metabolism, 2014cell.com
Triglycerides in adipose tissue are rapidly mobilized during times of energy needs via
lipolysis, a catabolic process that plays important role in whole body triglyceride turnover.
Lipolysis is regulated through cell surface receptors via neurotransmitters, hormones, and
paracrine factors that activate various intracellular pathways. These pathways converge on
the lipid droplet, the site of action of lipases and cofactors. Fat cell lipolysis is also involved
in the pathogenesis of metabolic disorders, and recent human studies have underscored its …
Triglycerides in adipose tissue are rapidly mobilized during times of energy needs via lipolysis, a catabolic process that plays important role in whole body triglyceride turnover. Lipolysis is regulated through cell surface receptors via neurotransmitters, hormones, and paracrine factors that activate various intracellular pathways. These pathways converge on the lipid droplet, the site of action of lipases and cofactors. Fat cell lipolysis is also involved in the pathogenesis of metabolic disorders, and recent human studies have underscored its role in disease states such as cancer cachexia and obesity-induced insulin resistance. We highlight here topics and findings with physiological and clinical relevance, namely lipid turnover in human fat cells and the role of lipolysis in cancer cachexia and obesity-induced insulin resistance.
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