Chao‐Wei Hung scite author profile

Insulin increases glucose uptake into adipose tissue and muscle by increasing trafficking of the glucose transporter Glut4. In cultured adipocytes, the exocytosis of Glut4 relies on activation of the small G protein RalA by insulin, via inhibition of its GTPase activating complex RalGAP. Here, we evaluate the role of RalA in glucose uptake in vivo with specific chemical inhibitors and by generation of mice with adipocyte-specific knockout of RalGAPB. RalA was profoundly activated in brown adipose tissue after feeding, and its inhibition prevented Glut4 exocytosis. RalGAPB knockout mice with diet-induced obesity were protected from the development of metabolic disease due to increased glucose uptake into brown fat. Thus, RalA plays a crucial role in glucose transport in adipose tissue in vivo.

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A simple and inexpensive quantitative technique for determining chemical sensitivity in Saccharomyces cerevisiae

Hung

Martínez-Márquez

Javed

et al. 2018

Sci Rep

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Chemical sensitivity, growth inhibition in response to a chemical, is a powerful phenotype that can reveal insight into diverse cellular processes. Chemical sensitivity assays are used in nearly every model system, however the yeast Saccharomyces cerevisiae provides a particularly powerful platform for discovery and mechanistic insight from chemical sensitivity assays. Here we describe a simple and inexpensive approach to determine chemical sensitivity quantitatively in yeast in the form of half maximal inhibitory concentration (IC50) using common laboratory equipment. We demonstrate the utility of this method using chemicals commonly used to monitor changes in membrane traffic. When compared to traditional agar-based plating methods, this method is more sensitive and can detect defects not apparent using other protocols. Additionally, this method reduces the experimental protocol from five days to 18 hours for the toxic amino acid canavanine. Furthermore, this method provides reliable results using lower amounts of chemicals. Finally, this method is easily adapted to additional chemicals as demonstrated with an engineered system that activates the spindle assembly checkpoint in response to rapamycin with differing efficiencies. This approach provides researchers with a cost-effective method to perform chemical genetic profiling without specialized equipment.

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Catecholamines suppress fatty acid re-esterification and increase oxidation in white adipocytes via STAT3

et al. 2020

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Catecholamines stimulate the mobilization of stored triglycerides in adipocytes to provide fatty acids (FAs) for other tissues. However, a large proportion is taken back up and either oxidized or re-esterified. What controls the disposition of these FAs in adipocytes remains unknown. Here we report that catecholamines redirect FAs for oxidation through the phosphorylation of signal transducer and activator of transcription 3 (STAT3). Adipocyte STAT3 is phosphorylated upon activation of β-adrenergic receptors, and in turn suppresses FA re-esterification to promote FA oxidation. Adipocyte-specific Stat3 KO mice exhibit normal rates of lipolysis, but exhibit defective lipolysis-driven oxidative metabolism, resulting in reduced energy expenditure and increased adiposity on high fat diet. This previously unappreciated, non-genomic role of STAT3 explains how sympathetic activation can increase both lipolysis and fatty acid oxidation in adipocytes, revealing a new regulatory axis in metabolism.

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Adaptor Autoregulation Promotes Coordinated Binding within Clathrin Coats

Hung

Aoh

Joglekar

et al. 2012

Journal of Biological Chemistry

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Background: There are multiple interacting clathrin adaptors at the trans-Golgi network and endosomes in yeast. Results: Autoregulation of one adaptor, Gga2, alters the temporal delay between recruitment of Gga2 and a second adaptor, Ent5, to organelles. Conclusion:The interaction between Gga2 and Ent5 is regulated by an autoregulatory sequence. Significance: This autoregulatory mechanism may ensure accurate membrane traffic in vivo.

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Chao‐Wei Hung

TANK-Binding Kinase 1 Regulates the Localization of Acyl-CoA Synthetase ACSL1 to Control Hepatic Fatty Acid Oxidation

RalA controls glucose homeostasis by regulating glucose uptake in brown fat

A simple and inexpensive quantitative technique for determining chemical sensitivity in Saccharomyces cerevisiae

Catecholamines suppress fatty acid re-esterification and increase oxidation in white adipocytes via STAT3

Adaptor Autoregulation Promotes Coordinated Binding within Clathrin Coats

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