Glucagon receptors on human islet cells contribute to glucose competence of insulin release

Huypens, Peter; Ling, Zhidong; Pipeleers, Daniël; Schuit, Franciscus

doi:10.1007/s001250051484

Cited by 200 publications

(159 citation statements)

References 28 publications

(46 reference statements)

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“…In vitro, we found that IL-6 increases pro-glucagon expression in addition to regulating ␣-cell fate. It is known that the pancreatic ␣-cell helps to maintain ␤-cell glucose competence via glucagon (25), and the glucagon receptor KO mice has impaired ␤-cell function (26). Recently, establishment of a ␤-cell overexpressing glucagon receptor transgenic mouse confirmed this paradigm, as these mice have improved glucose tolerance and increased insulin secretion in response to glucose (27).…”

Section: Discussionmentioning

confidence: 99%

Interleukin-6 regulates pancreatic α-cell mass expansion

Ellingsgaard

Ehses

Hammar³

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

244

257

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Interleukin-6 (IL-6) is systemically elevated in obesity and is a predictive factor to develop type 2 diabetes. Pancreatic islet pathology in type 2 diabetes is characterized by reduced ␤-cell function and mass, an increased proportion of ␣-cells relative to ␤-cells, and ␣-cell dysfunction. Here we show that the ␣ cell is a primary target of IL-6 actions. Beginning with investigating the tissue-specific expression pattern of the IL-6 receptor (IL-6R) in both mice and rats, we find the highest expression of the IL-6R in the endocrine pancreas, with highest expression on the ␣-cell. The islet IL-6R is functional, and IL-6 acutely regulates both pro-glucagon mRNA and glucagon secretion in mouse and human islets, with no acute effect on insulin secretion. Furthermore, IL-6 stimulates ␣-cell proliferation, prevents apoptosis due to metabolic stress, and regulates ␣-cell mass in vivo. Using IL-6 KO mice fed a high-fat diet, we find that IL-6 is necessary for high-fat diet-induced increased ␣-cell mass, an effect that occurs early in response to diet change. Further, after high-fat diet feeding, IL-6 KO mice without expansion of ␣-cell mass display decreased fasting glucagon levels. However, despite these ␣-cell effects, high-fat feeding of IL-6 KO mice results in increased fed glycemia due to impaired insulin secretion, with unchanged insulin sensitivity and similar body weights. Thus, we conclude that IL-6 is necessary for the expansion of pancreatic ␣-cell mass in response to high-fat diet feeding, and we suggest that this expansion may be needed for functional ␤-cell compensation to increased metabolic demand.alpha-cell mass ͉ beta-cell function ͉ high-fat diet ͉ pancreatic islet

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Section: Discussionmentioning

confidence: 99%

Interleukin-6 regulates pancreatic α-cell mass expansion

Ellingsgaard

Ehses

Hammar³

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

244

257

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“…Reduced expression of proglucagon in the alpha cells or altered posttranslational processing to glucagon could explain our findings of reduced plasma glucagon levels during 24 h profiles. Furthermore, it is possible that the apparent insulin secretion defect may be enhanced by impaired paracrine glucagon stimulation of the beta cells [33,34]. Finally, the novel idea that TCF7L2 is involved in the control of plasma glucagon levels is supported by unpublished data (V. Lyssenko and L. Groop) from 580 non-diabetic individuals participating in the Prevalence-Prediction-Prevention study, in which two other single nucleotide polymorphisms of TCF7L2, including rs10885414 and rs4639863 (but not rs7903146), were associated with altered plasma glucagon levels (p=0.03 and p=0.02, respectively).…”

Section: Discussionmentioning

confidence: 99%

The T allele of rs7903146 TCF7L2 is associated with impaired insulinotropic action of incretin hormones, reduced 24 h profiles of plasma insulin and glucagon, and increased hepatic glucose production in young healthy men

et al. 2009

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Aims/hypothesis We studied the physiological, metabolic and hormonal mechanisms underlying the elevated risk of type 2 diabetes in carriers of TCF7L2 gene. Methods We undertook genotyping of 81 healthy young Danish men for rs7903146 of TCF7L2 and carried out various beta cell tests including: 24 h glucose, insulin and glucagon profiles; OGTT; mixed meal test; IVGTT; hyperglycaemic clamp with co-infusion of glucagon-like peptide (GLP)-1 or glucose-dependent insulinotropic polypeptide (GIP); and a euglycaemic-hyperinsulinaemic clamp combined with glucose tracer infusion to study hepatic and peripheral insulin action. Results Carriers of the T allele were characterised by reduced 24 h insulin concentrations (p<0.05) and reduced insulin secretion relative to glucose during a mixed meal test (beta index: p<0.003), but not during an IVGTT. This was further supported by reduced late-phase insulinotropic action of GLP-1 (p=0.03) and GIP (p=0.07) during a 7 mmol/l hyperglycaemic clamp. Secretion of GLP-1 and GIP during the mixed meal test was normal. Despite elevated hepatic glucose production, carriers of the T allele Diabetologia (2009) 52:1298-1307 DOI 10.1007/s00125-009-1307-x Electronic supplementary

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“…Glucagon receptor knockout mice have diminished GSIS compared with WT mice, suggesting that disruption of glucagon signalling affects the insulin secretory pathway [37]. Human beta cells express functional glucagon receptors, which can generate signals for GSIS [38]; a glucocorticoid-mediated reduction in receptor number [34] could therefore impair insulin secretion.…”

Section: Discussionmentioning

confidence: 99%

11β-Hydroxysteroid dehydrogenase type 1 regulates insulin and glucagon secretion in pancreatic islets

et al. 2008

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Aims/hypothesis Exposure to excess glucocorticoid is associated with pancreatic beta cell damage and decreased glucose-stimulated insulin secretion (GSIS). Inactive glucocorticoids (cortisone, 11-dehydrocorticosterone) are converted to active cortisol and corticosterone by 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1), which requires NADPH as cofactor, which is generated by hexose-6-phosphate dehydrogenase (H6PDH). We investigated the localisation and activity of 11β-HSD1 within pancreatic islets, and determined its functional role in the regulation of insulin and glucagon secretion. Methods mRNA expression of 11β-HSD1 (also known as HSD11B1), glucocorticoid receptor and H6PDH (also known as H6PD) in human pancreas and murine islets was examined by real-time PCR. 11β-HSD1 protein levels were examined by immunohistochemistry and immunofluorescence. 11β-HSD1 activity was assessed in intact tissue and isolated islets of wild-type (WT) and both 11β-Hsd1-and H6pdh-null mice. Glucagon secretion and insulin secretion were analysed by RIA and ELISA respectively in isolated murine islets incubated with dexamethasone. Results 11β-HSD1 co-localised with glucagon in the periphery of murine and human islets, but not with insulin or somatostatin. Dexamethasone, 11-dehydrocorticosterone and corticosterone induced a dose-dependent decrease in GSIS and glucagon secretion following low glucose stimulation. Reduction of 11β-HSD1 activity with specific inhibitors or in experiments carried out in H6pdh-null mice reversed the effects of 11-dehydrocorticosterone, but had no effect following treatment with corticosterone. Conclusions/interpretation Local regeneration of glucocorticoid via 11β-HSD1 within alpha cells regulates glucagon secretion and in addition may act in a paracrine manner to limit insulin secretion from beta cells.

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Glucagon receptors on human islet cells contribute to glucose competence of insulin release

Cited by 200 publications

References 28 publications

Interleukin-6 regulates pancreatic α-cell mass expansion

Interleukin-6 regulates pancreatic α-cell mass expansion

The T allele of rs7903146 TCF7L2 is associated with impaired insulinotropic action of incretin hormones, reduced 24 h profiles of plasma insulin and glucagon, and increased hepatic glucose production in young healthy men

11β-Hydroxysteroid dehydrogenase type 1 regulates insulin and glucagon secretion in pancreatic islets

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