Peijuan Cao scite author profile

Peijuan Cao

3Publications

73Citation Statements Received

152Citation Statements Given

How they've been cited

113

How they cite others

140

144

Affiliations

University of Chinese Academy of Sciences, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences

Publications

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Regulation of Glucose Homeostasis and Lipid Metabolism by PPP1R3G-mediated Hepatic Glycogenesis

Zhang

Huang

et al. 2014

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Liver glycogen metabolism plays an important role in glucose homeostasis. Glycogen synthesis is mainly regulated by glycogen synthase that is dephosphorylated and activated by protein phosphatase 1 (PP1) in combination with glycogen-targeting subunits or G subunits. There are seven G subunits (PPP1R3A to G) that control glycogenesis in different organs. PPP1R3G is a recently discovered G subunit whose expression is changed along the fasting-feeding cycle and is proposed to play a role in postprandial glucose homeostasis. In this study, we analyzed the physiological function of PPP1R3G using a mouse model with liver-specific overexpression of PPP1R3G. PPP1R3G overexpression increases hepatic glycogen accumulation, stimulates glycogen synthase activity, elevates fasting blood glucose level, and accelerates postprandial blood glucose clearance. In addition, the transgenic mice have a reduced fat composition, together with decreased hepatic triglyceride level. Fasting-induced hepatic steatosis is relieved by PPP1R3G overexpression. In addition, PPP1R3G overexpression is able to elevate glycogenesis in primary hepatocytes. The glycogen-binding domain is indispensable for the physiological activities of PPP1R3G on glucose metabolism and triglyceride accumulation in the liver. Cumulatively, these data indicate that PPP1R3G plays a critical role in postprandial glucose homeostasis and liver triglyceride metabolism via its regulation on hepatic glycogenesis.

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Sma- and Mad-related Protein 7 (Smad7) Is Required for Embryonic Eye Development in the Mouse

Zhang

Huang

Cao

et al. 2013

Journal of Biological Chemistry

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Lactate Is a Key Mediator That Links Obesity to Insulin Resistance via Modulating Cytokine Production From Adipose Tissue

Lin

Bai

Wang

et al. 2022

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Numerous evidences indicate that inflammation in adipose tissue is the primary cause of systemic insulin resistance induced by obesity. Obesity-associated changes in circulating LPS level and hypoxia/HIF-1α activation have been proposed to be involved in boosting obesity-induced inflammation. However, what triggers obesity-induced inflammation is poorly understood. In this study, we pinpoint lactate as a key trigger to mediate obesity-induced inflammation and systemic insulin resistance. Specific deletion of Slc16a1 that encodes MCT1, the primary lactate transporter in adipose tissues, robustly elevates blood levels of pro-inflammatory cytokines and aggravates systemic insulin resistance without alteration of adiposity in mice fed high-fat diet. Slc16a1 deletion in adipocytes elevates intracellular lactate level while reducing circulating lactate concentration. Mechanistically, lactate retention due to Slc16a1 deletion initiates adipocyte apoptosis and cytokine release. The locally recruited macrophages amplify the inflammation by release of pro-inflammatory cytokines to the circulation, leading to insulin resistance in peripheral tissues. This study, therefore, indicates that lactate within adipocytes has a key biological function linking obesity to insulin resistance, and harnessing lactate in adipocytes can be a promising strategy to break this deadly link.

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Peijuan Cao

Regulation of Glucose Homeostasis and Lipid Metabolism by PPP1R3G-mediated Hepatic Glycogenesis

Sma- and Mad-related Protein 7 (Smad7) Is Required for Embryonic Eye Development in the Mouse

Lactate Is a Key Mediator That Links Obesity to Insulin Resistance via Modulating Cytokine Production From Adipose Tissue

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