Literature DB >> 15155905

Nuclear receptor corepressor RIP140 regulates fat accumulation.

Göran Leonardsson1, Jenny H Steel, Mark Christian, Victoria Pocock, Stuart Milligan, Jimmy Bell, Po-Wah So, Gema Medina-Gomez, Antonio Vidal-Puig, Roger White, Malcolm G Parker.   

Abstract

Nuclear receptors and their coactivators have been shown to function as key regulators of adipose tissue biology. Here we show that a ligand-dependent transcriptional repressor for nuclear receptors plays a crucial role in regulating the balance between energy storage and energy expenditure. Mice devoid of the corepressor protein RIP140 are lean, show resistance to high-fat diet-induced obesity and hepatic steatosis, and have increased oxygen consumption. Although the process of adipogenesis is unaffected, expression of certain lipogenic enzymes is reduced. In contrast, genes involved in energy dissipation and mitochondrial uncoupling, including uncoupling protein 1, are markedly increased. Therefore, the maintenance of energy homeostasis requires the action of a transcriptional repressor in white adipose tissue, and ligand-dependent recruitment of RIP140 to nuclear receptors may provide a therapeutic target in the treatment of obesity and related disorders.

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Year:  2004        PMID: 15155905      PMCID: PMC420412          DOI: 10.1073/pnas.0401013101

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  56 in total

1.  Becoming fat.

Authors:  Mitchell A Lazar
Journal:  Genes Dev       Date:  2002-01-01       Impact factor: 11.361

2.  Acetylation of nuclear hormone receptor-interacting protein RIP140 regulates binding of the transcriptional corepressor CtBP.

Authors:  N Vo; C Fjeld; R H Goodman
Journal:  Mol Cell Biol       Date:  2001-09       Impact factor: 4.272

3.  Distinct transcriptional profiles of adipogenesis in vivo and in vitro.

Authors:  A Soukas; N D Socci; B D Saatkamp; S Novelli; J M Friedman
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4.  Regulation of human adipocyte gene expression by thyroid hormone.

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Review 5.  Combinatorial control of gene expression by nuclear receptors and coregulators.

Authors:  Neil J McKenna; Bert W O'Malley
Journal:  Cell       Date:  2002-02-22       Impact factor: 41.582

6.  Transcription coactivator TRAP220 is required for PPAR gamma 2-stimulated adipogenesis.

Authors:  Kai Ge; Mohamed Guermah; Chao-Xing Yuan; Mitsuhiro Ito; Annika E Wallberg; Bruce M Spiegelman; Robert G Roeder
Journal:  Nature       Date:  2002-05-30       Impact factor: 49.962

7.  Peroxisome proliferator-activated receptor gamma coactivator 1beta (PGC-1beta ), a novel PGC-1-related transcription coactivator associated with host cell factor.

Authors:  Jiandie Lin; Pere Puigserver; Jerry Donovan; Paul Tarr; Bruce M Spiegelman
Journal:  J Biol Chem       Date:  2001-11-30       Impact factor: 5.157

8.  Expression of the uncoupling protein 1 from the aP2 gene promoter stimulates mitochondrial biogenesis in unilocular adipocytes in vivo.

Authors:  Martin Rossmeisl; Giorgio Barbatelli; Pavel Flachs; Petr Brauner; Maria Cristina Zingaretti; Mariella Marelli; Petra Janovská; Milada Horáková; Ivo Syrový; Saverio Cinti; Jan Kopecký
Journal:  Eur J Biochem       Date:  2002-01

9.  PPARgamma knockdown by engineered transcription factors: exogenous PPARgamma2 but not PPARgamma1 reactivates adipogenesis.

Authors:  Delin Ren; Trevor N Collingwood; Edward J Rebar; Alan P Wolffe; Heidi S Camp
Journal:  Genes Dev       Date:  2002-01-01       Impact factor: 11.361

10.  Genetic analysis of adipogenesis through peroxisome proliferator-activated receptor gamma isoforms.

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  157 in total

1.  PPARγ agonists induce a white-to-brown fat conversion through stabilization of PRDM16 protein.

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Review 2.  Transgenic mouse models resistant to diet-induced metabolic disease: is energy balance the key?

Authors:  Laura A A Gilliam; P Darrell Neufer
Journal:  J Pharmacol Exp Ther       Date:  2012-06-13       Impact factor: 4.030

Review 3.  A chromatin perspective of adipogenesis.

Authors:  Melina M Musri; Ramon Gomis; Marcelina Párrizas
Journal:  Organogenesis       Date:  2010 Jan-Mar       Impact factor: 2.500

4.  PER2 controls lipid metabolism by direct regulation of PPARγ.

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5.  The transcription factor GATA2 regulates differentiation of brown adipocytes.

Authors:  Judy Tsai; Qiang Tong; Guo Tan; Aaron N Chang; Stuart H Orkin; Gökhan S Hotamisligil
Journal:  EMBO Rep       Date:  2005-09       Impact factor: 8.807

Review 6.  Transcriptional control of adipocyte formation.

Authors:  Stephen R Farmer
Journal:  Cell Metab       Date:  2006-10       Impact factor: 27.287

7.  Cholesterol regulation of receptor-interacting protein 140 via microRNA-33 in inflammatory cytokine production.

Authors:  Ping-Chih Ho; Kun-Che Chang; Ya-Shan Chuang; Li-Na Wei
Journal:  FASEB J       Date:  2011-02-01       Impact factor: 5.191

8.  Suppression of oxidative metabolism and mitochondrial biogenesis by the transcriptional corepressor RIP140 in mouse adipocytes.

Authors:  Aimee M Powelka; Asha Seth; Joseph V Virbasius; Evangelos Kiskinis; Sarah M Nicoloro; Adilson Guilherme; Xiaoqing Tang; Juerg Straubhaar; Andrew D Cherniack; Malcolm G Parker; Michael P Czech
Journal:  J Clin Invest       Date:  2005-12-22       Impact factor: 14.808

9.  Adipose VEGF Links the White-to-Brown Fat Switch With Environmental, Genetic, and Pharmacological Stimuli in Male Mice.

Authors:  Matthew J During; Xianglan Liu; Wei Huang; Daniel Magee; Andrew Slater; Travis McMurphy; Chuansong Wang; Lei Cao
Journal:  Endocrinology       Date:  2015-03-12       Impact factor: 4.736

10.  Elevated expression of the metabolic regulator receptor-interacting protein 140 results in cardiac hypertrophy and impaired cardiac function.

Authors:  Asmaà Fritah; Jennifer H Steel; Donna Nichol; Nadeene Parker; Sharron Williams; Anthony Price; Leena Strauss; Timothy A Ryder; Margaret A Mobberley; Matti Poutanen; Malcolm Parker; Roger White
Journal:  Cardiovasc Res       Date:  2010-01-18       Impact factor: 10.787
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