Cargando…
Ablation of TRIP-Br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance
Obesity develops due to altered energy homeostasis favoring fat storage. Here we describe a novel transcription co-regulator for adiposity and energy metabolism, TRIP-Br2 (also called SERTAD2). TRIP-Br2 null mice are resistant to obesity and obesity-related insulin resistance. Adipocytes of the knoc...
| Autores principales: | , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
2013
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3567215/ https://www.ncbi.nlm.nih.gov/pubmed/23291629 http://dx.doi.org/10.1038/nm.3056 |
| _version_ | 1782258683524153344 |
|---|---|
| author | Liew, Chong Wee Boucher, Jeremie Cheong, Jit Kong Vernochet, Cecile Koh, Ho-Jin Mallol, Cristina Townsend, Kristy Langin, Dominique Kawamori, Dan Hu, Jiang Tseng, Yu-Hua Hellerstein, Marc K Farmer, Stephen R Goodyear, Laurie Doria, Alessandro Blüher, Matthias Hsu, Stephen I-Hong Kulkarni, Rohit N |
| author_facet | Liew, Chong Wee Boucher, Jeremie Cheong, Jit Kong Vernochet, Cecile Koh, Ho-Jin Mallol, Cristina Townsend, Kristy Langin, Dominique Kawamori, Dan Hu, Jiang Tseng, Yu-Hua Hellerstein, Marc K Farmer, Stephen R Goodyear, Laurie Doria, Alessandro Blüher, Matthias Hsu, Stephen I-Hong Kulkarni, Rohit N |
| author_sort | Liew, Chong Wee |
| collection | PubMed |
| description | Obesity develops due to altered energy homeostasis favoring fat storage. Here we describe a novel transcription co-regulator for adiposity and energy metabolism, TRIP-Br2 (also called SERTAD2). TRIP-Br2 null mice are resistant to obesity and obesity-related insulin resistance. Adipocytes of the knockout (KO) mice exhibited greater stimulated lipolysis secondary to enhanced expression of hormone sensitive lipase (HSL) and β3-adrenergic (Adrb3) receptors. The KOs also exhibit higher energy expenditure due to increased adipocyte thermogenesis and oxidative metabolism by up-regulating key enzymes in respective processes. Our data show for the first time that a cell cycle transcriptional co-regulator, TRIP-Br2, modulates fat storage through simultaneous regulation of lipolysis, thermogenesis and oxidative metabolism. These data together with the observation that TRIP-BR2 expression is selectively elevated in visceral fat in obese humans suggests that this transcriptional co-regulator is a novel therapeutic target for counteracting the development of obesity, insulin resistance and hyperlipidemia. |
| format | Online Article Text |
| id | pubmed-3567215 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2013 |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-35672152013-08-01 Ablation of TRIP-Br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance Liew, Chong Wee Boucher, Jeremie Cheong, Jit Kong Vernochet, Cecile Koh, Ho-Jin Mallol, Cristina Townsend, Kristy Langin, Dominique Kawamori, Dan Hu, Jiang Tseng, Yu-Hua Hellerstein, Marc K Farmer, Stephen R Goodyear, Laurie Doria, Alessandro Blüher, Matthias Hsu, Stephen I-Hong Kulkarni, Rohit N Nat Med Article Obesity develops due to altered energy homeostasis favoring fat storage. Here we describe a novel transcription co-regulator for adiposity and energy metabolism, TRIP-Br2 (also called SERTAD2). TRIP-Br2 null mice are resistant to obesity and obesity-related insulin resistance. Adipocytes of the knockout (KO) mice exhibited greater stimulated lipolysis secondary to enhanced expression of hormone sensitive lipase (HSL) and β3-adrenergic (Adrb3) receptors. The KOs also exhibit higher energy expenditure due to increased adipocyte thermogenesis and oxidative metabolism by up-regulating key enzymes in respective processes. Our data show for the first time that a cell cycle transcriptional co-regulator, TRIP-Br2, modulates fat storage through simultaneous regulation of lipolysis, thermogenesis and oxidative metabolism. These data together with the observation that TRIP-BR2 expression is selectively elevated in visceral fat in obese humans suggests that this transcriptional co-regulator is a novel therapeutic target for counteracting the development of obesity, insulin resistance and hyperlipidemia. 2013-01-06 2013-02 /pmc/articles/PMC3567215/ /pubmed/23291629 http://dx.doi.org/10.1038/nm.3056 Text en Users may view, print, copy, download and text and data- mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms |
| spellingShingle | Article Liew, Chong Wee Boucher, Jeremie Cheong, Jit Kong Vernochet, Cecile Koh, Ho-Jin Mallol, Cristina Townsend, Kristy Langin, Dominique Kawamori, Dan Hu, Jiang Tseng, Yu-Hua Hellerstein, Marc K Farmer, Stephen R Goodyear, Laurie Doria, Alessandro Blüher, Matthias Hsu, Stephen I-Hong Kulkarni, Rohit N Ablation of TRIP-Br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance |
| title | Ablation of TRIP-Br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance |
| title_full | Ablation of TRIP-Br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance |
| title_fullStr | Ablation of TRIP-Br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance |
| title_full_unstemmed | Ablation of TRIP-Br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance |
| title_short | Ablation of TRIP-Br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance |
| title_sort | ablation of trip-br2, a novel regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3567215/ https://www.ncbi.nlm.nih.gov/pubmed/23291629 http://dx.doi.org/10.1038/nm.3056 |
| work_keys_str_mv | AT liewchongwee ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT boucherjeremie ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT cheongjitkong ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT vernochetcecile ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT kohhojin ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT mallolcristina ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT townsendkristy ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT langindominique ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT kawamoridan ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT hujiang ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT tsengyuhua ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT hellersteinmarck ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT farmerstephenr ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT goodyearlaurie ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT doriaalessandro ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT bluhermatthias ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT hsustephenihong ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance AT kulkarnirohitn ablationoftripbr2anovelregulatoroffatlipolysisthermogenesisandoxidativemetabolismpreventsdietinducedobesityandinsulinresistance |