MST1 is a novel regulator of apoptosis in pancreatic beta-cells

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Abstract

Apoptotic cell death is a hallmark of the loss of insulin producing beta-cells in all forms of diabetes mellitus. Current treatment fails to halt the decline in functional beta-cell mass. Strategies to prevent beta-cell apoptosis and dysfunction are urgently needed. Here, we identified Mammalian Sterile 20-like kinase 1 (MST1) as a critical regulator of apoptotic beta-cell death and function. MST1 was strongly activated in beta-cells under diabetogenic conditions and correlated with beta-cell apoptosis. MST1 specifically induced the mitochondrial-dependent pathway of apoptosis in beta-cells through up-regulation of the BH3-only protein Bim. MST1 directly phosphorylated PDX1 at Thr11, resulting in its ubiquitination, degradation and impaired insulin secretion. Mst1 deficiency completely restored normoglycemia, beta-cell function and survival in vitro and in vivo. We show MST1 as novel pro-apoptotic kinase and key mediator of apoptotic signaling and beta-cell dysfunction, which may serve as target for the development of novel therapies for diabetes.

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Diet-induced type II diabetes in C57BL/6J mice.

Richard Surwit, Cynthia M. Kuhn, Christina Cochrane … (1988)

We investigated the effects of diet-induced obesity on glucose metabolism in two strains of mice, C57BL/6J and A/J. Twenty animals from each strain received ad libitum exposure to a high-fat high-simple-carbohydrate diet or standard Purina Rodent Chow for 6 mo. Exposure to the high-fat, high-simple-carbohydrate, low-fiber diet produced obesity in both A/J and C57BL/6J mice. Whereas obesity was associated with only moderate glucose intolerance and insulin resistance in A/J mice, obese C57BL/6J mice showed clear-cut diabetes with fasting blood glucose levels of greater than 240 mg/dl and blood insulin levels of greater than 150 microU/ml. C57BL/6J mice showed larger glycemic responses to stress and epinephrine in the lean state than AJ mice, and these responses were exaggerated by obesity. These data suggest that the C57BL/6J mouse carries a genetic predisposition to develop non-insulin-dependent (type II) diabetes. Furthermore, altered glycemic response to adrenergic stimulation may be a biologic marker for this genetic predisposition to develop type II diabetes.

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Type 2 diabetes-a matter of beta-cell life and death?

Christopher Rhodes (2005)

In type 2 diabetes, the beta cells of the pancreas fail to produce enough insulin to meet the body's demand, in part because of an acquired decrease in beta-cell mass. In adults, pancreatic beta-cell mass is controlled by several mechanisms, including beta-cell replication, neogenesis, hypertrophy, and survival. Here, I discuss evidence supporting the notion that increased beta-cell apoptosis is an important factor contributing to beta-cell loss and the onset of type 2 diabetes. Interestingly, a key signaling molecule that promotes beta-cell growth and survival, insulin receptor substrate 2 (IRS-2), is a member of a family of proteins whose inhibition contributes to the development of insulin resistance in the liver and other insulin-responsive tissues. Thus, the IRS-2 pathway appears to be a crucial participant in the tenuous balance between effective pancreatic beta-cell mass and insulin resistance.

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JNK phosphorylation of Bim-related members of the Bcl2 family induces Bax-dependent apoptosis.

Kui Lei, Roger Davis (2003)

The c-Jun NH(2)-terminal kinase (JNK) is activated when cells are exposed to environmental stress, including UV radiation. Gene disruption studies demonstrate that JNK is essential for UV-stimulated apoptosis mediated by the mitochondrial pathway by a Bax/Bak-dependent mechanism. Here, we demonstrate that JNK phosphorylates two members of the BH3-only subgroup of Bcl2-related proteins (Bim and Bmf) that are normally sequestered by binding to dynein and myosin V motor complexes. Phosphorylation by JNK causes release from the motor complexes. These proapoptotic BH3-only proteins therefore provide a molecular link between the JNK signal transduction pathway and the Bax/Bak-dependent mitochondrial apoptotic machinery.

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Author and article information

Journal

Journal ID (nlm-journal-id): 9502015

Journal ID (pubmed-jr-id): 8791

Journal ID (nlm-ta): Nat Med

Journal ID (iso-abbrev): Nat. Med.

Title: Nature medicine

ISSN (Print): 1078-8956

ISSN (Electronic): 1546-170X

Publication date Nihms-submitted: 24 February 2014

Publication date (Electronic): 16 March 2014

Publication date (Print): April 2014

Publication date PMC-release: 01 October 2014

Volume: 20

Issue: 4

Pages: 385-397

Affiliations

[1 ]Centre for Biomolecular Interactions Bremen, University of Bremen, Germany

[2 ]Department of Beta-cell Regeneration, Hagedorn Research Institute, Gentofte, Denmark

[3 ]Institute of Developmental Biology and Molecular Medicine, Fudan University, Shanghai, China

[4 ]Division of Transplantation, University of Illinois at Chicago, IL, USA

[5 ]Thérapie Cellulaire du Diabète, INSERM /Université de Lille Nord de France, France

Author notes

Contact: Kathrin Maedler, Ph.D. & Amin Ardestani, Ph.D., Islet Biology Laboratory, Centre for Biomolecular Interactions Bremen, University of Bremen, Leobener Straße NW2, Room B2080, 28359 Bremen, Germany, phone: +49(421)218-63290, Fax: +49(421)218-4279, kmaedler@ 123456uni-bremen.de / ardestani.amin@ 123456gmail.com

Authors’ contribution:

■

Conceived the project, designed all and performed most of experiments, analyzed the data and wrote the paper: AA
■

Experimental and technical support and analyzed data: FP
■

Performed experiments and analyzed data: ZA, SK, VK, TY
■

Contributed new reagents or analytic tools: TF, WT, JKC, FP, JO
■

Supervised the project and wrote the paper: KM

Article

Manuscript ID: EMS56752

DOI: 10.1038/nm.3482

PMC ID: 3981675

PubMed ID: 24633305

SO-VID: b1e125ba-ffbc-45ad-ac71-66a836b5d4fd

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MST1 is a novel regulator of apoptosis in pancreatic beta-cells

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Universal stem cells

Most cited references 62

Diet-induced type II diabetes in C57BL/6J mice.

Type 2 diabetes-a matter of beta-cell life and death?

JNK phosphorylation of Bim-related members of the Bcl2 family induces Bax-dependent apoptosis.

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