Absence of Shb impairs insulin secretion by elevated FAK activity in pancreatic islets

Author:

Alenkvist Ida,Dyachok Oleg,Tian Geng,Li Jia,Mehrabanfar Saba,Jin Yang,Birnir Bryndis,Tengholm Anders,Welsh Michael

Abstract

The Src homology-2 domain containing protein B (SHB) has previously been shown to function as a pleiotropic adapter protein, conveying signals from receptor tyrosine kinases to intracellular signaling intermediates. The overexpression ofShbin β-cells promotes β-cell proliferation by increased insulin receptor substrate (IRS) and focal adhesion kinase (FAK) activity, whereasShbdeficiency causes moderate glucose intolerance and impaired first-peak insulin secretion. Using an array of techniques, including live-cell imaging, patch-clamping, immunoblotting, and semi-quantitative PCR, we presently investigated the causes of the abnormal insulin secretory characteristics inShb-knockout mice.Shb-knockout islets displayed an abnormal signaling signature with increased activities of FAK, IRS, and AKT. β-catenin protein expression was elevated and it showed increased nuclear localization. However, there were no major alterations in the gene expression of various proteins involved in the β-cell secretory machinery. Nor wasShbdeficiency associated with changes in glucose-induced ATP generation or cytoplasmic Ca2+handling. In contrast, the glucose-induced rise in cAMP, known to be important for the insulin secretory response, was delayed in theShb-knockout compared with WT control. Inhibition of FAK increased the submembrane cAMP concentration, implicating FAK activity in the regulation of insulin exocytosis. In conclusion,Shbdeficiency causes a chronic increase in β-cell FAK activity that perturbs the normal insulin secretory characteristics of β-cells, suggesting multi-faceted effects of FAK on insulin secretion depending on the mechanism of FAK activation.

Publisher

Bioscientifica

Subject

Endocrinology,Endocrinology, Diabetes and Metabolism

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