Weizhen Zhang scite author profile

Weizhen Zhang

3Publications

238Citation Statements Received

60Citation Statements Given

How they've been cited

323

219

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Affiliations

University of Michigan–Ann Arbor, Peking University

Publications

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Ghrelin promotes hepatic lipogenesis by activation of mTOR-PPARγ signaling pathway

Qin

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

120

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Although ghrelin has been demonstrated to stimulate energy intake and storage through a central mechanism, its effect on hepatic lipid metabolism remains largely uncharacterized. Ghrelin receptor antagonism or gene deletion significantly decreased obesity-associated hepatic steatosis by suppression of de novo lipogenesis, whereas exogenous ghrelin stimulated lipogenesis, leading to hepatic lipid accumulation in mice. The effects of ghrelin were mediated by direct activation of its receptor on hepatocytes. Cultured hepatocytes responded to ghrelin with increased lipid content and expression of lipogenesis-related genes. Ghrelin increased phosphorylation of S6, the downstream target of mammalian target of rapamycin (mTOR) signaling in cultured hepatocytes, whereas ghrelin receptor antagonism reduced hepatic phosphorylation of S6 in db/db mice. Inhibition of mTOR signaling by rapamycin markedly attenuated ghrelin-induced up-regulation of lipogenesis in hepatocytes, whereas activation of hepatic mTOR signaling by deletion of TSC1 increased hepatic lipogenesis. By interacting with peroxisome proliferator-activated receptor-γ (PPARγ), mTOR mediates the ghrelin-induced up-regulation of lipogenesis in hepatocytes. The stimulatory effect of ghrelin on hepatic lipogenesis was significantly attenuated by PPARγ antagonism in cultured hepatocytes and in PPARγ gene-deficient mice. Our study indicates that ghrelin activates its receptor on hepatocytes to promote lipogenesis via a mechanism involving the mTOR-PPARγ signaling pathway.NAFLD | gastric hormone | growth hormone secretagogue receptor | GHSR T riglyceride deposition in the liver, which is strongly associated with obesity, is the initial event in the pathogenesis of nonalcoholic fatty liver disease (NAFLD). Over time, hepatic steatosis may progress to steatohepatitis, cirrhosis, and primary hepatocellular carcinoma (1). The current therapeutic strategy for NAFLD has been focused on reversal of hepatic steatosis, primarily through weight reduction. Treatment is often ineffective because of the difficulty in achieving sustained weight loss. Alternative approaches are needed but are limited by incomplete understanding of the mechanisms controlling the development of steatosis. Gastric hormones may be involved in regulation of lipid metabolism. Studies in both animals and humans demonstrate that ghrelin, a 28-aa peptide hormone secreted by X/A-like endocrine cells in the gastric fundus (2, 3), stimulates lipid accumulation in adipose tissue (4). Chronic infusion of ghrelin increases both adipose and hepatic lipid storage (5). Genetic disruption of either ghrelin or ghrelin receptor genes renders mice resistant to obesity and to the development of hepatic steatosis (6). Interestingly, the anabolic effect of ghrelin appears to be independent of its hyperphagic action. Chronic third intracerebroventricular infusion of ghrelin in diet-induced obese rats increases adiposity and gene expression of lipogenic enzymes in white adipose tissue while food intake remains unchanged (7)....

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Central and Peripheral Irisin Differentially Regulate Blood Pressure

Zhang

Chang

Zhang

et al. 2015

Cardiovasc Drugs Ther

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Introduction Irisin is a newly identified 112 amino acid hormone, derived as a product of fibronectin type III domain containing 5 (FNDC5), which is highly related to metabolic activity in skeletal muscle and brown fat. The effects of irisin on cardiovascular functions are unknown. Purpose To explore the effects of central and peripheral irisin on cardiovascular functions. Methods Irisin was either administrated into 3rd ventricle of rats or intravenously, and its effects on blood pressure and cardiac contractibility measured. Results Administration of recombinant human irisin into the 3rd brain ventricle of rats activated neurons in the paraventricular nuclei of the hypothalamus. Central administration of irisin increased blood pressure and cardiac contractibility. Exogenous irisin reversed atenolol-induced inhibition of cardiac contractibility. In contrast, peripheral administration of irisin reduced blood pressure in both control and spontaneously hypertensive rats. Irisin dilated mesenteric artery rings through ATP-sensitive potassium channels. Conclusion Our studies indicate that central and peripheral irisin may differentially regulate cardiovascular activities.

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Prediction of students’ early dropout based on their interaction logs in online learning environment

Mubarak

Cao

Zhang

2020

Interactive Learning Environments

116

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Weizhen Zhang

Ghrelin promotes hepatic lipogenesis by activation of mTOR-PPARγ signaling pathway

Central and Peripheral Irisin Differentially Regulate Blood Pressure

Prediction of students’ early dropout based on their interaction logs in online learning environment

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