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Literature DB >> 12486236

Hyperinsulinism induced by targeted suppression of beta cell KATP channels.

J C Koster¹, M S Remedi, T P Flagg, J D Johnson, K P Markova, B A Marshall, C G Nichols.

Abstract

ATP-sensitive K+ (K(ATP)) channels couple cell metabolism to electrical activity. To probe the role of K(ATP) in glucose-induced insulin secretion, we have generated transgenic mice expressing a dominant-negative, GFP-tagged K(ATP) channel subunit in which residues 132-134 (Gly-Tyr-Gly) in the selectivity filter were replaced by Ala-Ala-Ala, under control of the insulin promoter. Transgene expression was confirmed by both beta cell-specific green fluorescence and complete suppression of channel activity in those cells ( approximately 70%) that did fluoresce. Transgenic mice developed normally with no increased mortality and displayed normal body weight, blood glucose levels, and islet architecture. However, hyperinsulinism was evident in adult mice as (i) a disproportionately high level of circulating serum insulin for a given glucose concentration ( approximately 2-fold increase in blood insulin), (ii) enhanced glucose-induced insulin release from isolated islets, and (iii) mild yet significant enhancement in glucose tolerance. Enhanced glucose-induced insulin secretion results from both increased glucose sensitivity and increased release at saturating glucose concentration. The results suggest that incomplete suppression of K(ATP) channel activity can give rise to a maintained hyperinsulinism.

Entities: Chemical Disease Gene Species

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Year: 2002 PMID： 12486236 PMCID： PMC139257 DOI： 10.1073/pnas.012479199

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

39 in total

1. Role of apoptosis in pancreatic beta-cell death in diabetes.

Authors: J Chandra; B Zhivotovsky; S Zaitsev; L Juntti-Berggren; P O Berggren; S Orrenius
Journal: Diabetes Date: 2001-02 Impact factor: 9.461

2. Dominantly inherited hyperinsulinism caused by a mutation in the sulfonylurea receptor type 1.

Authors: H Huopio; F Reimann; R Ashfield; J Komulainen; H L Lenko; J Rahier; I Vauhkonen; J Kere; M Laakso; F Ashcroft; T Otonkoski
Journal: J Clin Invest Date: 2000-10 Impact factor: 14.808

3. Dysregulation of insulin secretion in children with congenital hyperinsulinism due to sulfonylurea receptor mutations.

Authors: A Grimberg; R J Ferry; A Kelly; S Koo-McCoy; K Polonsky; B Glaser; M A Permutt; L Aguilar-Bryan; D Stafford; P S Thornton; L Baker; C A Stanley
Journal: Diabetes Date: 2001-02 Impact factor: 9.461

4. Hyperinsulinism of infancy: the regulated release of insulin by KATP channel-independent pathways.

Authors: S G Straub; K E Cosgrove; C Ammälä; R M Shepherd; R E O'Brien; P D Barnes; N Kuchinski; J C Chapman; M Schaeppi; B Glaser; K J Lindley; G W Sharp; A Aynsley-Green; M J Dunne
Journal: Diabetes Date: 2001-02 Impact factor: 9.461

Review 5. Beta-cell adaptation and decompensation during the progression of diabetes.

Authors: G C Weir; D R Laybutt; H Kaneto; S Bonner-Weir; A Sharma
Journal: Diabetes Date: 2001-02 Impact factor: 9.461

6. Neurologic outcomes of 90 neonates and infants with persistent hyperinsulinemic hypoglycemia.

Authors: F Menni; P de Lonlay; C Sevin; G Touati; C Peigné; V Barbier; C Nihoul-Fékété; J M Saudubray; J J Robert
Journal: Pediatrics Date: 2001-03 Impact factor: 7.124

7. Sur1 knockout mice. A model for K(ATP) channel-independent regulation of insulin secretion.

Authors: V Seghers; M Nakazaki; F DeMayo; L Aguilar-Bryan; J Bryan
Journal: J Biol Chem Date: 2000-03-31 Impact factor: 5.157

8. Engineering a glucose-responsive human insulin-secreting cell line from islets of Langerhans isolated from a patient with persistent hyperinsulinemic hypoglycemia of infancy.

Authors: W M MacFarlane; J C Chapman; R M Shepherd; M N Hashmi; N Kamimura; K E Cosgrove; R E O'Brien; P D Barnes; A W Hart; H M Docherty; K J Lindley; A Aynsley-Green; R F James; K Docherty; M J Dunne
Journal: J Biol Chem Date: 1999-11-26 Impact factor: 5.157

Review 9. Nutritionally induced insulin resistance and receptor defect leading to beta-cell failure in animal models.

Authors: E Shafrir; E Ziv; L Mosthaf
Journal: Ann N Y Acad Sci Date: 1999-11-18 Impact factor: 5.691

10. Beta-cell proliferation and apoptosis in the developing normal human pancreas and in hyperinsulinism of infancy.

Authors: S A Kassem; I Ariel; P S Thornton; I Scheimberg; B Glaser
Journal: Diabetes Date: 2000-08 Impact factor: 9.461

33 in total

1. Defects in beta cell Ca²+ signalling, glucose metabolism and insulin secretion in a murine model of K(ATP) channel-induced neonatal diabetes mellitus.

Authors: R K P Benninger; M S Remedi; W S Head; A Ustione; D W Piston; C G Nichols
Journal: Diabetologia Date: 2011-01-27 Impact factor: 10.122

2. Targeted expression of Kir6.2 in mitochondria confers protection against hypoxic stress.

Authors: Marko Ljubkovic; Jasna Marinovic; Andreas Fuchs; Zeljko J Bosnjak; Martin Bienengraeber
Journal: J Physiol Date: 2006-09-07 Impact factor: 5.182

3. Gap junctions and other mechanisms of cell-cell communication regulate basal insulin secretion in the pancreatic islet.

Authors: R K P Benninger; W Steven Head; Min Zhang; Leslie S Satin; David W Piston
Journal: J Physiol Date: 2011-09-19 Impact factor: 5.182

Hyperinsulinism induced by targeted suppression of beta cell KATP channels.

1. Role of apoptosis in pancreatic beta-cell death in diabetes.

2. Dominantly inherited hyperinsulinism caused by a mutation in the sulfonylurea receptor type 1.

3. Dysregulation of insulin secretion in children with congenital hyperinsulinism due to sulfonylurea receptor mutations.

4. Hyperinsulinism of infancy: the regulated release of insulin by KATP channel-independent pathways.

Review 5. Beta-cell adaptation and decompensation during the progression of diabetes.

6. Neurologic outcomes of 90 neonates and infants with persistent hyperinsulinemic hypoglycemia.

7. Sur1 knockout mice. A model for K(ATP) channel-independent regulation of insulin secretion.

8. Engineering a glucose-responsive human insulin-secreting cell line from islets of Langerhans isolated from a patient with persistent hyperinsulinemic hypoglycemia of infancy.

Review 9. Nutritionally induced insulin resistance and receptor defect leading to beta-cell failure in animal models.

10. Beta-cell proliferation and apoptosis in the developing normal human pancreas and in hyperinsulinism of infancy.

1. Defects in beta cell Ca²+ signalling, glucose metabolism and insulin secretion in a murine model of K(ATP) channel-induced neonatal diabetes mellitus.

2. Targeted expression of Kir6.2 in mitochondria confers protection against hypoxic stress.

3. Gap junctions and other mechanisms of cell-cell communication regulate basal insulin secretion in the pancreatic islet.

4. Modeling K,ATP--dependent excitability in pancreatic islets.

5. Overnutrition induces β-cell differentiation through prolonged activation of β-cells in zebrafish larvae.

6. Membrane phosphoinositides control insulin secretion through their effects on ATP-sensitive K+ channel activity.

7. Accounting for near-normal glucose sensitivity in Kir6.2[AAA] transgenic mice.

Review 8. Hyperinsulinism and diabetes: genetic dissection of beta cell metabolism-excitation coupling in mice.

9. Preferential Gq signaling in diabetes: an electrical switch in incretin action and in diabetes progression?

Review 10. K(ATP) channelopathies in the pancreas.