Yiying Zhang scite author profile

The mechanisms that balance food intake and energy expenditure determine who will be obese and who will be lean. One of the molecules that regulates energy balance in the mouse is the obese (ob) gene. Mutation of ob results in profound obesity and type II diabetes as part of a syndrome that resembles morbid obesity in humans. The ob gene product may function as part of a signalling pathway from adipose tissue that acts to regulate the size of the body fat depot.

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Positional cloning of the mouse obese gene and its human homologue

Zhang¹,

Proenca²,

Maffei³

et al. 1995

Nature

2,139

2,527

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Brown Remodeling of White Adipose Tissue by SirT1-Dependent Deacetylation of Pparγ

Wang

Kon

et al. 2012

Cell

710

638

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SUMMARY Brown adipose tissue (BAT) can disperse stored energy as heat. Promoting BAT-like features in white adipose (WAT) is an attractive, if elusive therapeutic approach to staunch the current obesity epidemic. Here we report that gain-of-function of the NAD-dependent deacetylase SirT1 or loss-of-function of its endogenous inhibitor Deleted in breast cancer-1 (Dbc1) promote “browning” of WAT by deacetylating peroxisome proliferator-activated receptor (Ppar)-γ on Lys268 and Lys293. SirT1-dependent deacetylation of Lys268 and Lys293 is required to recruit the BAT program coactivator Prdm16 to Pparγ, leading to selective induction of BAT genes and repression of visceral WAT genes associated with insulin resistance. An acetylation-defective Pparγ mutant induces a brown phenotype in white adipocytes, while an acetylated mimetic fails to induce “brown” genes, but retains the ability to activate “white” genes. We propose that SirT1-dependent Pparγ deacetylation is a form of selective Pparγ modulation of potential therapeutic import.

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Phenotypes of Mouse diabetes and Rat fatty Due to Mutations in the OB (Leptin) Receptor

Chua

Chung

Wu-Peng

et al. 1996

Science

1,031

620

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Mice harboring mutations in the obese (ob) and diabetes (db) genes display similar phenotypes, and it has been proposed that these genes encode the ligand and receptor, respectively, for a physiologic pathway that regulates body weight. The cloning of ob, and the demonstration that it encodes a secreted protein (leptin) that binds specifically to a receptor (OB-R) in the brain, have validated critical aspects of this hypothesis. Here it is shown by genetic mapping and genomic analysis that mouse db, rat fatty (a homolog of db), and the gene encoding the OB-R are the same gene.

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Yiying Zhang

Positional cloning of the mouse obese gene and its human homologue

Positional cloning of the mouse obese gene and its human homologue

Brown Remodeling of White Adipose Tissue by SirT1-Dependent Deacetylation of Pparγ

Phenotypes of Mouse diabetes and Rat fatty Due to Mutations in the OB (Leptin) Receptor

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