Literature DB >> 19289493

Leptin deficiency and beta-cell dysfunction underlie type 2 diabetes in compound Akt knockout mice.

William S Chen1, Xiao-Ding Peng, Yong Wang, Pei-Zhang Xu, Mei-Ling Chen, Yongmei Luo, Sang-Min Jeon, Kevin Coleman, Wanda M Haschek, Joseph Bass, Louis H Philipson, Nissim Hay.   

Abstract

Phenotypic analyses of mice null for the individual Akt isoforms suggested that they are functionally distinct and that only Akt2 plays a role in diabetes. We show here that Akt isoforms play compensatory and complementary roles in glucose homeostasis and diabetes. Insulin resistance in Akt2(-/-) mice was inhibited by haplodeficiency of Pten, suggesting that other Akt isoforms can compensate for Akt2 function. Haplodeficiency of Akt1 in Akt2(-/-) mice, however, converts prediabetes to overt type 2 diabetes, which is also reversed by haplodeficiency of Pten. Akt3 does not appear to contribute significantly to diabetes. Overt type 2 diabetes in Akt1(+/-) Akt2(-/-) mice is manifested by hyperglycemia due to beta-cell dysfunction combined with impaired glucose homeostasis due to markedly decreased leptin levels. Restoring leptin levels was sufficient to restore normal blood glucose and insulin levels in Akt1(+/-) Akt2(-/-) and Akt2(-/-) mice, suggesting that leptin-deficiency is the predominant cause of diabetes in these mice. These results uncover a new mechanism linking Akt to diabetes, provide a therapeutic strategy, and show that diabetes induced as a consequence of cancer therapy, via Akt inhibition, could be reversed by leptin therapy.

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Year:  2009        PMID: 19289493      PMCID: PMC2681997          DOI: 10.1128/MCB.01792-08

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  46 in total

1.  Surgical implantation of adipose tissue reverses diabetes in lipoatrophic mice.

Authors:  O Gavrilova; B Marcus-Samuels; D Graham; J K Kim; G I Shulman; A L Castle; C Vinson; M Eckhaus; M L Reitman
Journal:  J Clin Invest       Date:  2000-02       Impact factor: 14.808

Review 2.  The two TORCs and Akt.

Authors:  Prashanth T Bhaskar; Nissim Hay
Journal:  Dev Cell       Date:  2007-04       Impact factor: 12.270

Review 3.  The regulation and activities of the multifunctional serine/threonine kinase Akt/PKB.

Authors:  E S Kandel; N Hay
Journal:  Exp Cell Res       Date:  1999-11-25       Impact factor: 3.905

4.  Exendin-4 uses Irs2 signaling to mediate pancreatic beta cell growth and function.

Authors:  Sunmin Park; Xiaocheng Dong; Tracy L Fisher; Sarah Dunn; A Kadir Omer; Gordon Weir; Morris F White
Journal:  J Biol Chem       Date:  2005-11-04       Impact factor: 5.157

5.  Phosphatase and tensin homolog regulation of islet growth and glucose homeostasis.

Authors:  Jake A Kushner; Laura Simpson; Lynn M Wartschow; Shaodong Guo; Matthew M Rankin; Ramon Parsons; Morris F White
Journal:  J Biol Chem       Date:  2005-09-16       Impact factor: 5.157

6.  Disruption of insulin receptor substrate 2 causes type 2 diabetes because of liver insulin resistance and lack of compensatory beta-cell hyperplasia.

Authors:  N Kubota; K Tobe; Y Terauchi; K Eto; T Yamauchi; R Suzuki; Y Tsubamoto; K Komeda; R Nakano; H Miki; S Satoh; H Sekihara; S Sciacchitano; M Lesniak; S Aizawa; R Nagai; S Kimura; Y Akanuma; S I Taylor; T Kadowaki
Journal:  Diabetes       Date:  2000-11       Impact factor: 9.461

7.  Divergent regulation of hepatic glucose and lipid metabolism by phosphoinositide 3-kinase via Akt and PKClambda/zeta.

Authors:  Cullen M Taniguchi; Tatsuya Kondo; Mini Sajan; Ji Luo; Roderick Bronson; Tomoichiro Asano; Robert Farese; Lewis C Cantley; C Ronald Kahn
Journal:  Cell Metab       Date:  2006-05       Impact factor: 27.287

8.  Mutation of the PDK1 PH domain inhibits protein kinase B/Akt, leading to small size and insulin resistance.

Authors:  Jose R Bayascas; Stephan Wullschleger; Kei Sakamoto; Juan M García-Martínez; Carol Clacher; David Komander; Daan M F van Aalten; Krishna M Boini; Florian Lang; Christopher Lipina; Lisa Logie; Calum Sutherland; John A Chudek; Janna A van Diepen; Peter J Voshol; John M Lucocq; Dario R Alessi
Journal:  Mol Cell Biol       Date:  2008-03-17       Impact factor: 4.272

9.  Beta cell-specific deficiency of the stimulatory G protein alpha-subunit Gsalpha leads to reduced beta cell mass and insulin-deficient diabetes.

Authors:  Tao Xie; Min Chen; Qing-Hong Zhang; Zheng Ma; Lee S Weinstein
Journal:  Proc Natl Acad Sci U S A       Date:  2007-11-20       Impact factor: 11.205

10.  Making insulin-deficient type 1 diabetic rodents thrive without insulin.

Authors:  Xinxin Yu; Byung-Hyun Park; May-Yun Wang; Zhao V Wang; Roger H Unger
Journal:  Proc Natl Acad Sci U S A       Date:  2008-09-08       Impact factor: 11.205
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  35 in total

1.  Loss of Foxd3 results in decreased β-cell proliferation and glucose intolerance during pregnancy.

Authors:  Jennifer L Plank; Audrey Y Frist; Alison W LeGrone; Mark A Magnuson; Patricia A Labosky
Journal:  Endocrinology       Date:  2011-09-27       Impact factor: 4.736

Review 2.  The role of mammalian target of rapamycin (mTOR) in the regulation of pancreatic β-cell mass: implications in the development of type-2 diabetes.

Authors:  Jianling Xie; Terence P Herbert
Journal:  Cell Mol Life Sci       Date:  2011-11-09       Impact factor: 9.261

3.  Prediabetes linked to excess glucagon in transgenic mice with pancreatic active AKT1.

Authors:  Toya M Albury-Warren; Veethika Pandey; Lina P Spinel; Michal M Masternak; Deborah A Altomare
Journal:  J Endocrinol       Date:  2015-10-20       Impact factor: 4.286

4.  Novel role for SGK3 in glucose homeostasis revealed in SGK3/Akt2 double-null mice.

Authors:  Li-Jun Yao; James A McCormick; Jian Wang; Katherine Y Yang; Atif Kidwai; Gian Luca Colussi; Krishna M Boini; Morris J Birnbaum; Florian Lang; Michael S German; David Pearce
Journal:  Mol Endocrinol       Date:  2011-10-06

5.  The Role of PTEN in β-Cell Growth.

Authors:  Ni Zeng; Jennifer-Ann Bayan; Lina He; Bangyan Stiles
Journal:  Open Endocrinol J       Date:  2010

Review 6.  Leptin Signaling in the Control of Metabolism and Appetite: Lessons from Animal Models.

Authors:  Alberto A Barrios-Correa; José A Estrada; Irazú Contreras
Journal:  J Mol Neurosci       Date:  2018-10-03       Impact factor: 3.444

7.  Akt2 is required for hepatic lipid accumulation in models of insulin resistance.

Authors:  Karla F Leavens; Rachael M Easton; Gerald I Shulman; Stephen F Previs; Morris J Birnbaum
Journal:  Cell Metab       Date:  2009-11       Impact factor: 27.287

8.  Differential effects of protein kinase B/Akt isoforms on glucose homeostasis and islet mass.

Authors:  Francesca Buzzi; Linhua Xu; Richard A Zuellig; Simone B Boller; Giatgen A Spinas; Debby Hynx; Zai Chang; Zhongzhou Yang; Brian A Hemmings; Oliver Tschopp; Markus Niessen
Journal:  Mol Cell Biol       Date:  2009-11-23       Impact factor: 4.272

9.  Glucose Induces Mouse β-Cell Proliferation via IRS2, MTOR, and Cyclin D2 but Not the Insulin Receptor.

Authors:  Rachel E Stamateris; Rohit B Sharma; Yahui Kong; Pantea Ebrahimpour; Deepika Panday; Pavana Ranganath; Baobo Zou; Helena Levitt; Nisha Abraham Parambil; Christopher P O'Donnell; Adolfo García-Ocaña; Laura C Alonso
Journal:  Diabetes       Date:  2016-01-06       Impact factor: 9.461

10.  Spontaneous Hepatocellular Carcinoma after the Combined Deletion of Akt Isoforms.

Authors:  Qi Wang; Wan-Ni Yu; Xinyu Chen; Xiao-Ding Peng; Sang-Min Jeon; Morris J Birnbaum; Grace Guzman; Nissim Hay
Journal:  Cancer Cell       Date:  2016-03-17       Impact factor: 31.743
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