The Molecular Mechanism Underlying Continuous Exercise Training-Induced Adaptive Changes of Lipolysis in White Adipose Cells
作者: Junetsu Ogasawara , Tetsuya Izawa , Tomonobu Sakurai , Takuya Sakurai , Ken Shirato
DOI: 10.1155/2015/473430
关键词: Regulation of gene expression 、 Metabolism 、 Lipolysis 、 Adipose tissue 、 Adipose triglyceride lipase 、 Phosphorylation 、 Downregulation and upregulation 、 Biology 、 Lipase 、 Internal medicine 、 Endocrinology
摘要: Physical exercise accelerates the mobilization of free fatty acids from white adipocytes to provide fuel for energy. This happens in several tissues and helps regulate a whole-body state metabolism. Under these conditions, hydrolysis triacylglycerol (TG) that is found known be augmented via activation lipolytic events, which referred as “lipolytic cascade.” Indeed, evidence has shown responses are upregulated by continuous training (ET) through adaptive changes molecules constitute cascade. During past few decades, many lipolysis-related have been identified. Of note, discovery new lipase, adipose triglyceride redefined existing concepts hormone-sensitive lipase-dependent TG adipocytes. review outlines alterations result ET, includes molecular regulation lipases
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