Journals
3 March, 2010
Volume 11, Issue 3
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Volume 11, Issue 3
On the cover: Profound metabolic adaptations, such as brown fat nonshivering thermogenesis, are involved in the fetal-to-neonatal transition in mice. On pp. 206–212 of this issue, Hondares et al. study the developmental regulation of FGF21, a recently identified regulator of metabolism, and show that fatty acids from milk control FGF21 expression and release by the neonatal liver; this effect requires the hepatic PPARα receptor. Neonatal hepatic FGF21 targets brown adipose tissue and activates thermogenesis. The cover depicts the novel role of FGF21 as a signal released by the liver and activating brown adipose tissue thermogenesis in neonates. Concept by D. Rajadel and V. Carreño; execution by Kate Mahan.
Presubmission queries
- If you would like editorial input on whether your paper might be a strong candidate for consideration for Cell Metabolism, you can send a presubmission inquiry using our online inquiry form.
In The News
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Fyn-Dependent Regulation of Energy Expenditure and Body Weight Is Mediated by Tyrosine Phosphorylation of LKB1
Yamada et al.
February 2 issue
Coverage in:
BusinessWeek | United Press International
Antidiabetic Effects of IGFBP2, a Leptin-Regulated Gene
Hedbacker et al.
January 5 issue
Coverage in:
BusinessWeek | WebMD
Sarcolemmal ATP-Sensitive K+ Channels Control Energy Expenditure Determining Body Weight
Alekseev et al.
January 5 issue
Coverage in:
BusinessWeek| Times of India | Iowa City Press Citizen | The Examiner
Acute or Chronic Upregulation of Mitochondrial Fatty Acid Oxidation Has No Net Effect on Whole-Body Energy Expenditure or Adiposity
Hoehn et al.
January 5 issue
Coverage in:
The Hindu
Cell Metabolism Connections
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Deuel Lipid Conference
- March 2-5, 2010
Editor - Nikla Emambokus - March 2-5, 2010
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NIDDK Workshop Circadian Rhythms and Metabolic Disease
- April 12-13, 2010
Editor - Nikla Emambokus - April 12-13, 2010
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Keystone - Islet Biology & Diabetes
- April 12-17, 2010
Editor - Charlotte Wang - April 12-17, 2010
Editorial Opportunities
at Cell Press:
Announcing the Inaugural Cell Symposia
Inflammation & Disease
September 26-28, 2010
Lisbon, Portugal
Abstract submission deadline: May 17, 2010
Register Now! Submit Your Abstract!
Cell Press Podcast
In this PaperClip, Angela Andersen speaks with Kausik Si about the role of self-perpetuating protein conformations in long-term memory.
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Volume 11, Issue 3: March 2, 2010
Current Issue
Volume 11, Issue 3: March 2, 2010
Next issue: April 7, 2010
Featured Article
The Featured Article is freely available to all readers.
Yang et al.
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Adipose triglyceride lipase (ATGL) is the rate-limiting enzyme for triacylglycerol (TAG) hydrolysis in adipocytes. The precise mechanisms whereby ATGL is regulated remain uncertain. Here, we demonstrate that a protein encoded by G0/G1 switch gene 2 (G0S2) is a selective regulator of ATGL. G0S2 is highly expressed in adipose tissue and differentiated adipocytes. When overexpressed in HeLa cells, G0S2 localizes to lipid droplets and prevents their degradation mediated by ATGL. Moreover, G0S2 specifically interacts with ATGL through the hydrophobic domain of G0S2 and the patatin-like domain of ATGL. More importantly, interaction with G0S2 inhibits ATGL TAG hydrolase activity. Knockdown of endogenous G0S2 accelerates basal and stimulated lipolysis in adipocytes, whereas overexpression of G0S2 diminishes the rate of lipolysis in both adipocytes and adipose tissue explants. Thus, G0S2 functions to attenuate ATGL action both in vitro and in vivo and by this mechanism regulates TAG hydrolysis.Featured Preview
Dawn L. Brasaemle
10.1016/j.cmet.2010.02.008
Links to Yang et al.
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