- Browse by Subject
Browsing by Subject "SNARE"
Now showing 1 - 2 of 2
Results Per Page
Sort Options
Item DOC2B enhancement of beta cell function and survival(2018-03-08) Aslamy, Arianne; Thurmond, Debbie C.; Elmendorf, Jeffrey S.; Evans-Molina, Carmella; Baucum, Anthony J.Diabetes mellitus is a complex metabolic disease that currently affects an estimated 422 million people worldwide, with incidence rates rising annually. Type 1 diabetes (T1D) accounts for 5-10% of these cases. Its complications remain a major cause of global deaths. T1D is characterized by autoimmune destruction of β-cell mass. Efforts to preserve and protect β-cell mass in the preclinical stages of T1D are limited by few blood-borne biomarkers of β-cell destruction. In healthy β-cells, insulin secretion requires soluble n-ethylmaleimide-sensitive factor-attachment protein receptor (SNARE) complexes and associated accessory regulatory proteins to promote the docking and fusion of insulin vesicles at the plasma membrane. Two target membrane (t)-SNARE proteins, Syntaxin 1/4 and SNAP25/23, and one vesicle-associated (v)-SNARE protein, VAMP2, constitute the SNARE core complex. SNARE complex assembly is also facilitated by the regulatory protein, Double C2-domain protein β (DOC2B). I hypothesized that DOC2B deficiency may underlie β-cell susceptibility to T1D damage; conversely , overexpression of DOC2B may protect β-cell mass. Indeed, with regard to DOC2B abundance, my studies show reduced levels of DOC2B in platelets and islets of prediabetic rodents and new-onset T1D humans. Remarkably, clinical islet transplantation in T1D humans restores platelet DOC2B levels, indicating a correlation With regard to protection/functional effects, DOC2B deficiency enhances susceptibility to T1D in mice, while overexpression of DOC2B selectively in β-cells protects mice from chemically induced T1D; this correlates with preservation of functional β-cell mass. Mechanistically, overexpression of DOC2B and the DOC2B peptide, C2AB, protects clonal β-cell against cytokine or thapsigargin-induced apoptosis and reduces ER stress; this is dependent on C2AB’s calcium binding capacity. C2AB is sufficient to enhance glucose stimulated insulin secretion (GSIS) and SNARE activation in clonal β-cells to the same extent as full-length DOC2B. In summary, these studies identify DOC2B as a potential biomarker and novel therapeutic target for prevention/management of T1D.Item F-Actin regulation of SNARE-mediated insulin secretion(2013-10-07) Kalwat, Michael Andrew; Thurmond, Debbie C.; Atkinson, Simon; Hudmon, Andy; Mirmira, Raghavendra G.In response to glucose, pancreatic islet beta cells secrete insulin in a biphasic manner, and both phases are diminished in type 2 diabetes. In beta cells, cortical F-actin beneath the plasma membrane (PM) prevents insulin granule access to the PM and glucose stimulates remodeling of this cortical F-actin to allow trafficking of insulin granules to the PM. Glucose stimulation activates the small GTPase Cdc42, which then activates p21-activated kinase 1 (PAK1); both Cdc42 and PAK1 are required for insulin secretion. In conjunction with Cdc42-PAK1 signaling, the SNARE protein Syntaxin 4 dissociates from F-actin to allow SNARE complex formation and insulin exocytosis. My central hypothesis is that, in the pancreatic beta cell, glucose signals through a Cdc42-PAK1-mediated pathway to remodel the F-actin cytoskeleton to mobilize insulin granules to SNARE docking sites at the PM to evoke glucose stimulated second phase insulin secretion. To investigate this, PAK1 was inhibited in MIN6 beta cells with IPA3 followed by live-cell imaging of F-actin remodeling using the F-actin probe, Lifeact-GFP. PAK1 inhibition prevented normal glucose-induced F-actin remodeling. PAK1 inhibition also prevented insulin granule accumulation at the PM in response to glucose. The ERK pathway was implicated, as glucose-stimulated ERK activation was decreased under PAK1-depleted conditions. Further study showed that inhibition of ERK impaired insulin secretion and cortical F-actin remodeling. One of the final steps of insulin secretion is the fusion of insulin granules with the PM which is facilitated by the SNARE proteins Syntaxin 4 on the PM and VAMP2 on the insulin granule. PAK1 activation was also found to be critical for Syntaxin 4-F-actin complex dynamics in beta cells, linking the Cdc42-PAK1 signaling pathway to SNARE-mediated exocytosis. Syntaxin 4 interacts with the F-actin severing protein Gelsolin, and in response to glucose Gelsolin dissociates from Syntaxin 4 in a calcium-dependent manner to allow Syntaxin 4 activation. Disrupting the interaction between Syntaxin 4 and Gelsolin aberrantly activates endogenous Syntaxin 4, elevating basal insulin secretion. Taken together, these results illustrate that signaling to F-actin remodeling is important for insulin secretion and that F-actin and its binding proteins can impact the final steps of insulin secretion.