| Literature DB >> 27815211 |
Yongxian Zhang1, Jin Gu1, Lin Wang1, Zilong Zhao1, Yi Pan1, Yan Chen2.
Abstract
Glycogen and triglyceride are two major forms of energy storage in the body and provide the fuel during different phases of food deprivation. However, how glycogen metabolism is linked to fat deposition in adipose tissue has not been clearly characterized. We generated a mouse model with whole-body deletion of PPP1R3G, a glycogen-targeting subunit of protein phosphatase-1 required for glycogen synthesis. Upon feeding with high-fat diet, the body weight and fat composition are significantly reduced in the PPP1R3G-/- mice compared to the wild type controls. The metabolic rate of the mice as measured by O2 consumption and CO2 production is accelerated by PPP1R3G deletion. The high-fat diet-induced liver steatosis is also slightly relieved by PPP1R3G deletion. The glycogen level in adipose tissue is reduced by PPP1R3G deletion. In 3T3L1 cells, overexpression of PPP1R3G leads to increases of both glycogen and triglyceride levels. In conclusion, our study indicates that glycogen is actively involved in fat accumulation in adipose tissue and obesity development upon high-fat diet. Our study also suggests that PPP1R3G is an important player that links glycogen metabolism to lipid metabolism in vivo. Copyright ÂEntities:
Keywords: Adipocytes; Glycogen; Hepatic steatosis; Insulin resistance; Obesity
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Year: 2016 PMID: 27815211 DOI: 10.1016/j.mce.2016.10.036
Source DB: PubMed Journal: Mol Cell Endocrinol ISSN: 0303-7207 Impact factor: 4.102