Literature DB >> 19429676

Functional analysis of long-chain acyl-CoA synthetase 1 in 3T3-L1 adipocytes.

Sandra Lobo1, Brian M Wiczer, David A Bernlohr.   

Abstract

ACSL1 (acyl-CoA synthetase 1), the major acyl-CoA synthetase of adipocytes, has been proposed to function in adipocytes as mediating free fatty acid influx, esterification, and storage as triglyceride. To test this hypothesis, ACSL1 was stably silenced (knockdown (kd)) in 3T3-L1 cells, differentiated into adipocytes, and evaluated for changes in lipid metabolism. Surprisingly, ACSL1-silenced adipocytes exhibited no significant changes in basal or insulin-stimulated long-chain fatty acid uptake, lipid droplet size, or tri-, di-, or monoacylglycerol levels when compared with a control adipocyte line. However, ACSL1 kd adipocytes displayed a 7-fold increase in basal and a approximately 15% increase in forskolin-stimulated fatty acid efflux without any change in glycerol release, indicating a role for the protein in fatty acid reesterification following lipolysis. Consistent with this proposition, ACSL1 kd cells exhibited a decrease in activation and phosphorylation of AMP-activated protein kinase and its primary substrate acetyl-CoA carboxylase. Moreover, ACSL1 kd adipocytes displayed an increase in phosphorylated protein kinase C and phosphorylated JNK, attenuated insulin signaling, and a decrease in insulin-stimulated glucose uptake. These findings identify a primary role of ACSL1 in adipocytes not in control of lipid influx, as previously considered, but in lipid efflux and fatty acid-induced insulin resistance.

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Year:  2009        PMID: 19429676      PMCID: PMC2709349          DOI: 10.1074/jbc.M109.017244

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  36 in total

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2.  Enzymatic properties of purified murine fatty acid transport protein 4 and analysis of acyl-CoA synthetase activities in tissues from FATP4 null mice.

Authors:  Angela M Hall; Brian M Wiczer; Thomas Herrmann; Wolfgang Stremmel; David A Bernlohr
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3.  Overexpression of rat long chain acyl-coa synthetase 1 alters fatty acid metabolism in rat primary hepatocytes.

Authors:  Lei O Li; Douglas G Mashek; Jie An; Scott D Doughman; Christopher B Newgard; Rosalind A Coleman
Journal:  J Biol Chem       Date:  2006-10-06       Impact factor: 5.157

4.  Role of caveolin-1 and cholesterol in transmembrane fatty acid movement.

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Journal:  Biochemistry       Date:  2006-03-07       Impact factor: 3.162

Review 5.  Functions of AMP-activated protein kinase in adipose tissue.

Authors:  Marie Daval; Fabienne Foufelle; Pascal Ferré
Journal:  J Physiol       Date:  2006-05-18       Impact factor: 5.182

6.  Attenuation of adipocyte triacylglycerol hydrolase activity decreases basal fatty acid efflux.

Authors:  Enhui Wei; Wenhui Gao; Richard Lehner
Journal:  J Biol Chem       Date:  2007-01-21       Impact factor: 5.157

7.  Fatty acid metabolism in adipocytes: functional analysis of fatty acid transport proteins 1 and 4.

Authors:  Sandra Lobo; Brian M Wiczer; Ann J Smith; Angela M Hall; David A Bernlohr
Journal:  J Lipid Res       Date:  2006-12-11       Impact factor: 5.922

8.  FATP1 is an insulin-sensitive fatty acid transporter involved in diet-induced obesity.

Authors:  Qiwei Wu; Angelica M Ortegon; Bernice Tsang; Holger Doege; Kenneth R Feingold; Andreas Stahl
Journal:  Mol Cell Biol       Date:  2006-05       Impact factor: 4.272

9.  Fatty acid transport protein 4 is dispensable for intestinal lipid absorption in mice.

Authors:  Jien Shim; Casey L Moulson; Elizabeth P Newberry; Meei-Hua Lin; Yan Xie; Susan M Kennedy; Jeffrey H Miner; Nicholas O Davidson
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10.  Fatty acid transport by vectorial acylation in mammals: roles played by different isoforms of rat long-chain acyl-CoA synthetases.

Authors:  Fumin Tong; Paul N Black; Rosalind A Coleman; Concetta C DiRusso
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  33 in total

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Journal:  J Appl Physiol (1985)       Date:  2010-12-23

2.  Gene-nutrient interactions with dietary fat modulate the association between genetic variation of the ACSL1 gene and metabolic syndrome.

Authors:  Catherine M Phillips; Louisa Goumidi; Sandrine Bertrais; Martyn R Field; L Adrienne Cupples; Jose M Ordovas; Catherine Defoort; Julie A Lovegrove; Christian A Drevon; Michael J Gibney; Ellen E Blaak; Beata Kiec-Wilk; Britta Karlstrom; Jose Lopez-Miranda; Ross McManus; Serge Hercberg; Denis Lairon; Richard Planells; Helen M Roche
Journal:  J Lipid Res       Date:  2010-02-22       Impact factor: 5.922

3.  Inhibition of β-Catenin Signaling in the Skin Rescues Cutaneous Adipogenesis in Systemic Sclerosis: A Randomized, Double-Blind, Placebo-Controlled Trial of C-82.

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Journal:  J Invest Dermatol       Date:  2017-08-12       Impact factor: 8.551

4.  Adipose acyl-CoA synthetase-1 directs fatty acids toward beta-oxidation and is required for cold thermogenesis.

Authors:  Jessica M Ellis; Lei O Li; Pei-Chi Wu; Timothy R Koves; Olga Ilkayeva; Robert D Stevens; Steven M Watkins; Deborah M Muoio; Rosalind A Coleman
Journal:  Cell Metab       Date:  2010-07-07       Impact factor: 27.287

5.  High-fructose diet downregulates long-chain acyl-CoA synthetase 3 expression in liver of hamsters via impairing LXR/RXR signaling pathway.

Authors:  Bin Dong; Chin Fung Kelvin Kan; Amar B Singh; Jingwen Liu
Journal:  J Lipid Res       Date:  2013-02-20       Impact factor: 5.922

6.  Suppressor of Fused Is Critical for Maintenance of Neuronal Progenitor Identity during Corticogenesis.

Authors:  Odessa R Yabut; Gloria Fernandez; Trung Huynh; Keejung Yoon; Samuel J Pleasure
Journal:  Cell Rep       Date:  2015-09-17       Impact factor: 9.423

7.  ACSL1 Is Associated With Fetal Programming of Insulin Sensitivity and Cellular Lipid Content.

Authors:  Roy Joseph; Jeremie Poschmann; Rami Sukarieh; Peh Gek Too; Sofi G Julien; Feng Xu; Ai Ling Teh; Joanna D Holbrook; Kai Lyn Ng; Yap Seng Chong; Peter D Gluckman; Shyam Prabhakar; Walter Stünkel
Journal:  Mol Endocrinol       Date:  2015-04-27

8.  Acyl-CoA synthetase 1 is induced by Gram-negative bacteria and lipopolysaccharide and is required for phospholipid turnover in stimulated macrophages.

Authors:  Katya B Rubinow; Valerie Z Wall; Joel Nelson; Daniel Mar; Karol Bomsztyk; Bardia Askari; Marvin A Lai; Kelly D Smith; Myoung Sook Han; Anuradha Vivekanandan-Giri; Subramaniam Pennathur; Carolyn J Albert; David A Ford; Roger J Davis; Karin E Bornfeldt
Journal:  J Biol Chem       Date:  2013-02-20       Impact factor: 5.157

9.  Pathways commonly dysregulated in mouse and human obese adipose tissue: FAT/CD36 modulates differentiation and lipogenesis.

Authors:  E Berger; S Héraud; A Mojallal; C Lequeux; M Weiss-Gayet; O Damour; A Géloën
Journal:  Adipocyte       Date:  2015-01-26       Impact factor: 4.534

10.  PKA phosphorylates and inactivates AMPKalpha to promote efficient lipolysis.

Authors:  Nabil Djouder; Roland D Tuerk; Marianne Suter; Paolo Salvioni; Ramon F Thali; Roland Scholz; Kari Vaahtomeri; Yolanda Auchli; Helene Rechsteiner; René A Brunisholz; Benoit Viollet; Tomi P Mäkelä; Theo Wallimann; Dietbert Neumann; Wilhelm Krek
Journal:  EMBO J       Date:  2009-11-26       Impact factor: 11.598
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