Literature DB >> 29317436

The Diabetes Gene and Wnt Pathway Effector TCF7L2 Regulates Adipocyte Development and Function.

Xi Chen1, Iriscilla Ayala1, Chris Shannon1, Marcel Fourcaudot1, Nikhil K Acharya2, Christopher P Jenkinson3, Sami Heikkinen4, Luke Norton5.   

Abstract

The gene encoding for transcription factor 7-like 2 (TCF7L2) is the strongest type 2 diabetes mellitus (T2DM) candidate gene discovered to date. The TCF7L2 protein is a key transcriptional effector of the Wnt/β-catenin signaling pathway, which is an important developmental pathway that negatively regulates adipogenesis. However, the precise role that TCF7L2 plays in the development and function of adipocytes remains largely unknown. Using a combination of in vitro approaches, we first show that TCF7L2 protein is increased during adipogenesis in 3T3-L1 cells and primary adipocyte stem cells and that TCF7L2 expression is required for the regulation of Wnt signaling during adipogenesis. Inactivation of TCF7L2 protein by removing the high-mobility group (HMG)-box DNA binding domain in mature adipocytes in vivo leads to whole-body glucose intolerance and hepatic insulin resistance. This phenotype is associated with increased subcutaneous adipose tissue mass, adipocyte hypertrophy, and inflammation. Finally, we demonstrate that TCF7L2 mRNA expression is downregulated in humans with impaired glucose tolerance and adipocyte insulin resistance, highlighting the translational potential of these findings. In summary, our data indicate that TCF7L2 has key roles in adipose tissue development and function that may reveal, at least in part, how TCF7L2 contributes to the pathophysiology of T2DM.
© 2018 by the American Diabetes Association.

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Year:  2018        PMID: 29317436      PMCID: PMC5860863          DOI: 10.2337/db17-0318

Source DB:  PubMed          Journal:  Diabetes        ISSN: 0012-1797            Impact factor:   9.461


  61 in total

1.  Wnt4 and Wnt5a promote adipocyte differentiation.

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2.  Transcriptional control of adipose lipid handling by IRF4.

Authors:  Jun Eguchi; Xun Wang; Songtao Yu; Erin E Kershaw; Patricia C Chiu; Joanne Dushay; Jennifer L Estall; Ulf Klein; Eleftheria Maratos-Flier; Evan D Rosen
Journal:  Cell Metab       Date:  2011-03-02       Impact factor: 27.287

3.  A novel mechanism for the transcriptional regulation of Wnt signaling in development.

Authors:  Tomas Vacik; Jennifer L Stubbs; Greg Lemke
Journal:  Genes Dev       Date:  2011-08-19       Impact factor: 11.361

4.  Critical role of stearoyl-CoA desaturase-1 (SCD1) in the onset of diet-induced hepatic insulin resistance.

Authors:  Roger Gutiérrez-Juárez; Alessandro Pocai; Claudia Mulas; Hiraku Ono; Sanjay Bhanot; Brett P Monia; Luciano Rossetti
Journal:  J Clin Invest       Date:  2006-06       Impact factor: 14.808

5.  Regulation of insulin secretion, glucokinase gene transcription and beta cell proliferation by adipocyte-derived Wnt signalling molecules.

Authors:  S Schinner; F Ulgen; C Papewalis; M Schott; A Woelk; A Vidal-Puig; W A Scherbaum
Journal:  Diabetologia       Date:  2007-11-10       Impact factor: 10.122

6.  TCF7L2 modulates glucose homeostasis by regulating CREB- and FoxO1-dependent transcriptional pathway in the liver.

Authors:  Kyoung-Jin Oh; Jinyoung Park; Su Sung Kim; Hyunhee Oh; Cheol Soo Choi; Seung-Hoi Koo
Journal:  PLoS Genet       Date:  2012-09-27       Impact factor: 5.917

7.  Complement factor H is expressed in adipose tissue in association with insulin resistance.

Authors:  José María Moreno-Navarrete; Rubén Martínez-Barricarte; Victoria Catalán; Mònica Sabater; Javier Gómez-Ambrosi; Francisco José Ortega; Wifredo Ricart; Mathias Blüher; Gema Frühbeck; Santiago Rodríguez de Cordoba; José Manuel Fernández-Real
Journal:  Diabetes       Date:  2009-10-15       Impact factor: 9.461

8.  Chemokines control fat accumulation and leptin secretion by cultured human adipocytes.

Authors:  C C Gerhardt; I A Romero; R Cancello; L Camoin; A D Strosberg
Journal:  Mol Cell Endocrinol       Date:  2001-04-25       Impact factor: 4.102

9.  Adipose tissue TCF7L2 splicing is regulated by weight loss and associates with glucose and fatty acid metabolism.

Authors:  Dorota Kaminska; Tiina Kuulasmaa; Sari Venesmaa; Pirjo Käkelä; Maija Vaittinen; Leena Pulkkinen; Matti Pääkkönen; Helena Gylling; Markku Laakso; Jussi Pihlajamäki
Journal:  Diabetes       Date:  2012-10-18       Impact factor: 9.461

10.  The genetic susceptibility to type 2 diabetes may be modulated by obesity status: implications for association studies.

Authors:  Stéphane Cauchi; Kevin T Nead; Hélène Choquet; Fritz Horber; Natascha Potoczna; Beverley Balkau; Michel Marre; Guillaume Charpentier; Philippe Froguel; David Meyre
Journal:  BMC Med Genet       Date:  2008-05-22       Impact factor: 2.103
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  34 in total

1.  The Wnt Effector TCF7l2 Promotes Oligodendroglial Differentiation by Repressing Autocrine BMP4-Mediated Signaling.

Authors:  Sheng Zhang; Yan Wang; Xiaoqing Zhu; Lanying Song; Xinhua Zhan; Edric Ma; Jennifer McDonough; Hui Fu; Franca Cambi; Judith Grinspan; Fuzheng Guo
Journal:  J Neurosci       Date:  2021-01-15       Impact factor: 6.167

2.  FGF21 contributes to metabolic improvements elicited by combination therapy with exenatide and pioglitazone in patients with type 2 diabetes.

Authors:  Ricardo J Samms; Christine C Cheng; Marcel Fourcaudot; Sami Heikkinen; Ahmed Khattab; John Adams; Eugenio Cersosimo; Curtis Triplitt; Curtis Puckett; Kostas Tsintzas; Andrew C Adams; Muhammad A Abdul-Ghani; Ralph A DeFronzo; Luke Norton
Journal:  Am J Physiol Endocrinol Metab       Date:  2022-06-20       Impact factor: 5.900

3.  Transcriptome Sequencing to Identify Important Genes and lncRNAs Regulating Abdominal Fat Deposition in Ducks.

Authors:  Chunyan Yang; Zhixiu Wang; Qianqian Song; Bingqiang Dong; Yulin Bi; Hao Bai; Yong Jiang; Guobin Chang; Guohong Chen
Journal:  Animals (Basel)       Date:  2022-05-13       Impact factor: 3.231

4.  Olanzapine Promotes the Occurrence of Metabolic Disorders in Conditional TCF7L2-Knockout Mice.

Authors:  Ye Yang; Manjun Shen; Li Li; Yujun Long; Lu Wang; Bing Lang; Renrong Wu
Journal:  Front Cell Dev Biol       Date:  2022-07-06

5.  Genetic landscape and autoimmunity of monocytes in developing Vogt-Koyanagi-Harada disease.

Authors:  Youjin Hu; Yixin Hu; Yuhua Xiao; Feng Wen; Shaochong Zhang; Dan Liang; Lishi Su; Yang Deng; Jiawen Luo; Jingsong Ou; Mingzhi Lu; Yanhua Hong; Wei Chi
Journal:  Proc Natl Acad Sci U S A       Date:  2020-09-28       Impact factor: 11.205

6.  GWA-based pleiotropic analysis identified potential SNPs and genes related to type 2 diabetes and obesity.

Authors:  Yong Zeng; Hao He; Lan Zhang; Wei Zhu; Hui Shen; Yu-Jie Yan; Hong-Wen Deng
Journal:  J Hum Genet       Date:  2020-09-18       Impact factor: 3.172

7.  San Antonio Nathan Shock Center: your one-stop shop for aging research.

Authors:  Adam B Salmon; James F Nelson; Jonathan A L Gelfond; Martin Javors; Brett Ginsburg; Marisa Lopez-Cruzan; Veronica Galvan; Elizabeth Fernandez; Nicolas Musi; Yuji Ikeno; Gene Hubbard; James Lechleiter; Peter J Hornsby; Randy Strong
Journal:  Geroscience       Date:  2021-07-09       Impact factor: 7.713

Review 8.  The Role of TCF7L2 in Type 2 Diabetes.

Authors:  Laura Del Bosque-Plata; Eduardo Martínez-Martínez; Miguel Ángel Espinoza-Camacho; Claudia Gragnoli
Journal:  Diabetes       Date:  2021-05-20       Impact factor: 9.461

Review 9.  Running Against the Wnt: How Wnt/β-Catenin Suppresses Adipogenesis.

Authors:  Twan J J de Winter; Roeland Nusse
Journal:  Front Cell Dev Biol       Date:  2021-02-09

10.  Wnt Signaling: From Mesenchymal Cell Fate to Lipogenesis and Other Mature Adipocyte Functions.

Authors:  Devika P Bagchi; Ormond A MacDougald
Journal:  Diabetes       Date:  2021-06-21       Impact factor: 9.337
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