FAM3A drives uncoupling of muscle lipid accumulation and insulin resistance depending on insulin receptor
Dan Yang, Xiaohong Song, Xu Zeng, Zenghan Cao, Wenxuan Xiang, Xiangyu Xian, Lichai Yuan, Zheng Zhang, Yuehong Zheng

TL;DR
This study shows that FAM3A helps reduce insulin resistance in obese mice by promoting lipid accumulation in muscles without causing metabolic issues.
Contribution
The novel finding is that FAM3A can uncouple lipid accumulation from insulin resistance via insulin receptor and PPARα signaling.
Findings
FAM3A overexpression increases lipid accumulation in skeletal muscles without causing insulin resistance.
FAM3A's effects are mediated through PPARα and require insulin receptor signaling.
FAM3A upregulates lipid synthesis enzymes and adiponectin in muscle tissue.
Abstract
Obesity-associated insulin resistance (IR) is closely related to intramyocellular lipid accumulation in skeletal muscle. FAM3 metabolism regulating signaling molecule A (FAM3A) is expressed and secreted in almost all tissues. However, its biological roles and underlying mechanisms remain largely unknown. Here, we reported that abnormal lipid metabolism decreased the FAM3A level. To investigate the function of FAM3A, a transgenic mouse strain was generated, in which FAM3A protein was overexpressed systemically. Proteomic analyses revealed that proteins related to lipid metabolic processes, specifically fatty acid (FA) synthesis complex enzymes and adiponectin were upregulated in the skeletal muscles of the FAM3A-transgenic mice compared with those in the skeletal muscles of the wild-type control mice. Furthermore, a positive correlation between FAM3A and adiponectin levels was observed…
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Taxonomy
TopicsAdipose Tissue and Metabolism · Adipokines, Inflammation, and Metabolic Diseases · Muscle Physiology and Disorders
