It has now been realized that type-2 diabetes is a disease of insulin insufficiency. Type-2 diabetes is associated with a decrease in functional pancreatic ss-cell mass that no longer compensates for the peripheral insulin resistance. As such, maintaining an optimal ss-cell population for the insulin secretory demand, especially by promoting ss-cell survival, is key for delaying the onset of type-2, as well as type-1, diabetes. In this regard, IRS-2 has been shown to play a pivotal role in ss-cell growth and survival. Increased IRS-2 expression promotes ss-cell growth and survival, whereas insufficient IRS-2 expression leads to spontaneous ss-cell apoptosis. Although IRS-2 protein and mRNA half-life is short in islet ss-cells, this is countered by efficient and highly regulated control of IRS-2 expression, predominately mediated at the transcriptional level. Under basal conditions, ss-cell IRS-2 gene transcription is controlled by a FoxO transcription factor via an insulin response element (IRE) in the IRS-2 promoter. When IRS-2/PI3K/PKB signaling is activated in ss-cells, FoxO transcription factors are consequently inactivated and IRS-2 expression is reduced, in what appears to be a temporal negative feedback mechanism to prevent IRS-2 signaling from being sustained. However, IRS-2 expression can be independently controlled in ss-cells by alternative means. Glucose, in the physiologically relevant range, is a major regulator of ss-cell IRS-2 gene transcription. This requires glucose metabolism and is Ca2+-dependent. It likely provides a mechanism to preserve ss-cell well-being during acute changes in metabolic demand, and is important since other factors, like incretins, only increae IRS-2 expression in ss-cells in a glucose-dependent fashion. However, these early findings need substantiating. This proposal means to gain a better insight into the control of IRS-2 expression in pancreatic ss-cells at the molecular level. It is intended to better characterize control of IRS-2 gene transcription under basal conditions with an emphasis on identifying which particular FoxO transcription factor downstream of PI3K/PKB signaling increases IRS-2 expression. In addition, we will pinpoint which particular secondary signals emanating from increased glucose metabolism in ss-cells link to increased IRS-2 expression (especially via Ca2+/CaMK). It is intended to define a glucose-regulatory cis-element(s) (GREs) in the IRS-2 gene promoter and then identify a trans-acting factor(s) that specifically associates with the GRE glucose-regulatory manner. Thus, a much deeper insight into the molecular mechanism that controls IRS-2 expression in normal, obese and type-2 diabetic primary ss-cells will emerge from these proposed studies. Obesity-linked type-2 diabetes is a major health problem in the US and caused by loss of pancreatic ss-cells that produce insulin. Novel therapeutic approaches are needed which are aimed at protecting the endogenous ss-cell population to produce enough insulin to delay, perhaps indefinitely, the onset of diabetes. IRS-2 is a gene key to ss-cell survival, and it is anticipated that new insight into the control of IRS-2 expression will lead to a novel means of maintaining adequate ss-cell numbers and sufficient insulin production in vivo, that in turn will alleviate, or perhaps even prevent, symptoms of type-2 diabetes.

Public Health Relevance

Type-2 diabetes is caused by a decrease in functional pancreatic ss-cell mass that is no longer able to compensate for the peripheral insulin resistance, and thus maintaining an effective ss-cell population by promoting ss-cell survival and protection is key for delaying the onset of type-2 diabetes. IRS-2 plays a pivotal role in ss-cell growth and survival, and its expression is tightly controlled (predominately at the transcriptional level), but little is known about this regulation. The overall goal of this application is to get better insight into the molecular mechanism behind transcriptional control of IRS-2 in ss-cells, that may eventually lead to a novel therapeutic means of promoting ss-cell survival via maintaining optimal IRS-2 expression to subsequently delay, perhaps indefinitely, the onset of diabetes.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK055267-15
Application #
8280433
Study Section
Cellular Aspects of Diabetes and Obesity Study Section (CADO)
Program Officer
Sato, Sheryl M
Project Start
1998-09-30
Project End
2014-06-30
Budget Start
2012-07-01
Budget End
2013-06-30
Support Year
15
Fiscal Year
2012
Total Cost
$332,548
Indirect Cost
$119,376
Name
University of Chicago
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
005421136
City
Chicago
State
IL
Country
United States
Zip Code
60637
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