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Review
. 2009 Jun;23(6):747-58.
doi: 10.1210/me.2008-0400. Epub 2009 Feb 5.

Minireview: Meeting the demand for insulin: molecular mechanisms of adaptive postnatal beta-cell mass expansion

Mira M Sachdeva  1 Doris A Stoffers
Affiliations
Review

Minireview: Meeting the demand for insulin: molecular mechanisms of adaptive postnatal beta-cell mass expansion

Mira M Sachdeva et al. Mol Endocrinol. 2009 Jun.

Abstract

Type 2 diabetes results from pancreatic ss-cell failure in the setting of insulin resistance. This model of disease progression has received recent support from the results of genome-wide association studies that identify genes potentially regulating ss-cell growth and function as type 2 diabetes susceptibility loci. Normal ss-cell compensation for an increased insulin demand includes both enhanced insulin-secretory capacity and an expansion of morphological ss-cell mass, due largely to changes in the balance between ss-cell proliferation and apoptosis. Recent years have brought significant progress in the understanding of both extrinsic signals stimulating ss-cell growth as well as mediators intrinsic to the ss-cell that regulate the compensatory response. Here, we review the current knowledge of mechanisms underlying adaptive expansion of ss-cell mass, focusing on lessons learned from experimental models of physiologically occurring insulin-resistant states including diet-induced obesity and pregnancy, and highlighting the potential importance of interorgan cross talk. The identification of critical mediators of islet compensation may direct the development of future therapeutic strategies to enhance the response of ss-cells to insulin resistance.

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Figures

Figure 1
Figure 1
Dynamics of ß-cell mass during the progression of insulin resistance to diabetes. In the setting of insulin resistance, the pancreatic islet insulin-secreting ß-cells respond, in part, via a compensatory increase in ß-cell mass, elevating plasma insulin levels to maintain normoglycemia. Changes in both ß-cell proliferation and survival play important roles in this adaptive expansion of ß-cell mass and in the reduction in mass that is associated with progressive ß-cell dysfunction, eventually leading to type 2 diabetes. These cellular processes are regulated by extracellular signals from a number of tissues, as described in detail in the text. IGT, Impaired glucose tolerance; IFG, impaired fasting glucose; PP, pancreatic polypeptide.
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