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- Li, Jia, et al.
(författare)
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Submembrane ATP and Ca2+ kinetics in alpha-cells : unexpected signaling for glucagon secretion
- 2015
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Ingår i: The FASEB Journal. - : Wiley. - 0892-6638 .- 1530-6860. ; 29:8, s. 3379-3388
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Tidskriftsartikel (refereegranskat)abstract
- Cytoplasmic ATP and Ca2+ are implicated in current models of glucose's control of glucagon and insulin secretion from pancreatic alpha- and beta-cells, respectively, but little is known about ATP and its relation to Ca2+ in alpha-cells. We therefore expressed the fluorescent ATP biosensor Perceval in mouse pancreatic islets and loaded them with a Ca2+ indicator. With total internal reflection fluorescence microscopy, we recorded subplasma membrane concentrations of Ca2+ and ATP ([Ca2+](pm); [ATP](pm)) in superficial alpha- and beta-cells of intact islets and related signaling to glucagon and insulin secretion by immunoassay. Consistent with ATP's controlling glucagon and insulin secretion during hypo- and hyperglycemia, respectively, the dose-response relationship for glucoseinduced [ATP](pm) generation was left shifted in alpha-cells compared to beta-cells. Both cell types showed [Ca2+](pm) and [ATP](pm) oscillations in opposite phase, probably reflecting energy-consuming Ca2+ transport. Although pulsatile insulin and glucagon release are in opposite phase, [Ca2+](pm) synchronized in the same phase between alpha- and beta-cells. This paradox can be explained by the overriding of Ca2+ stimulation by paracrine inhibition, because somatostatin receptor blockade potently stimulated glucagon release with little effect on Ca2+. The data indicate that an alpha-cell-intrinsic mechanism controls glucagon in hypoglycemia and that paracrine factors shape pulsatile secretion in hyperglycemia.
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2. |
- Stamenkovic, Jelena, et al.
(författare)
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Inhibition of the malate-aspartate shuttle in mouse pancreatic islets abolishes glucagon secretion without affecting insulin secretion
- 2015
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Ingår i: Biochemical Journal. - 0264-6021. ; 468, s. 49-63
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Tidskriftsartikel (refereegranskat)abstract
- Altered secretion of insulin as well as glucagon has been implicated in the pathogenesis of Type 2 diabetes (T2D), but the mechanisms controlling glucagon secretion from alpha-cells largely remain unresolved. Therefore, we studied the regulation of glucagon secretion from alpha TC1-6 (alpha TC1 clone 6) cells and compared it with insulin release from INS-1 832/13 cells. We found that INS-1 832/13 and alpha TC1-6 cells respectively secreted insulin and glucagon concentration-dependently in response to glucose. In contrast, tight coupling of glycolytic and mitochondrial metabolism was observed only in INS-1 832/13 cells. Although glycolytic metabolism was similar in the two cell lines, TCA (tricarboxylic acid) cycle metabolism, respiration and ATP levels were less glucose-responsive in alpha TC1-6 cells. Inhibition of the malate-aspartate shuttle, using phenyl succinate (PhS), abolished glucose-provoked ATP production and hormone secretion from alpha TC1-6 but not INS-1 832/13 cells. Blocking the malate-aspartate shuttle increased levels of glycerol 3-phosphate only in INS-1 832/13 cells. Accordingly, relative expression of constituents in the glycerol phosphate shuttle compared with malate-aspartate shuttle was lower in alpha TC1-6 cells. Our data suggest that the glycerol phosphate shuttle augments the malate-aspartate shuttle in INS-1 832/13 but not alpha TC1-6 cells. These results were confirmed in mouse islets, where PhS abrogated secretion of glucagon but not insulin. Furthermore, expression of the rate-limiting enzyme of the glycerol phosphate shuttle was higher in sorted primary beta-than in alpha-cells. Thus, suppressed glycerol phosphate shuttle activity in the alpha-cell may prevent a high rate of glycolysis and consequently glucagon secretion in response to glucose. Accordingly, pyruvate-and lactate-elicited glucagon secretion remains unaffected since their signalling is independent of mitochondrial shuttles.
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