DPP-4 inhibition contributes to the prevention of hypoglycaemia through a GIP–glucagon counterregulatory axis in mice

Malmgren, Siri; Åhrén, Bo

doi:10.1007/s00125-015-3518-7

Cited by 30 publications

(29 citation statements)

References 45 publications

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“…In the 1970s it was also demonstrated that glucagon levels increased during hypoglycaemia [28][29][30]. In fact, the glucagon counter-regulation to hypoglycaemia is a key mechanism for preventing and defending hypoglycaemia as demonstrated in glucagon receptor knock-out mice, who have a defective counterregulation as evident from hypoglycemic clamp studies [31]. Several mechanisms may explain this, as is illustrated in Fig.…”

Section: Glucagon Contributes To Counterregulation In Hypoglycaemiamentioning

confidence: 93%

Glucagon – Early breakthroughs and recent discoveries

Åhrén

2015

Peptides

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Section: Glucagon Contributes To Counterregulation In Hypoglycaemiamentioning

confidence: 93%

Glucagon – Early breakthroughs and recent discoveries

Åhrén

2015

Peptides

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“…This suggests that the increase in GIP levels by DPP-4 inhibition may be the mechanism by which glucagon counter-regulation to hypoglycaemia is sustained or augmented by these drugs. Support for this comes from animal studies showing that mice with genetic deletion of the GIP receptors have a poorer glucagon counter-regulation to hypoglycaemia during vildagliptin treatment compared with normal mice with intact GIP receptors [71]. Therefore, although the reduction of glucagon during hyperglycaemia seems to be mediated by GLP-1, stimulation by DPP-4 inhibition of glucagon secretion during hypoglycaemia may be mediated by GIP.…”

Section: Effects On Alpha Cellsmentioning

confidence: 99%

Improved glucose regulation in type 2 diabetic patients with DPP-4 inhibitors: focus on alpha and beta cell function and lipid metabolism

Åhrén

Foley²

2016

Diabetologia

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Inhibition of dipeptidyl peptidase-4 (DPP-4) is an established glucose-lowering strategy for the management of type 2 diabetes mellitus. DPP-4 inhibitors reduce both fasting and postprandial plasma glucose levels, resulting in reduced HbA 1c with low risk for hypoglycaemia and weight gain. They act primarily by preventing inactivation of the incretin hormones glucose-dependent insulinotropic polypeptide and glucagon-like peptide-1, thereby prolonging the enhanced endogenous levels of these hormones after meal ingestion. This in turn causes islet and extrapancreatic effects, including increased glucose sensing in islet alpha and beta cells. These effects result in increased insulin secretion and decreased glucagon secretion being more effective in hyperglycaemic states and reduced insulin secretion and increased glucagon secretion being more effective during hypoglycaemia. Other secondary pharmacological actions of DPP-4 inhibitors include mobilisation and burning of fat during meals, decrease in fat extraction from the gut, reduction of fasting lipolysis and liver fat and increase in LDL particle size. These actions contribute to the clinical effects of DPP-4 inhibition, and the reduced demand for insulin could also lead to a durability benefit. This review summarises the current knowledge of the secondary pharmacological actions of DPP-4 inhibitors that lead to improved glucose regulation in patients with type 2 diabetes, focusing on alpha and beta cell function and lipid metabolism.

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“…For the highest ZP-GA-1 dose (1500 ng/h), postprandial (120 min) ZP-GA-1 levels in plasma were measured to 136G19 pM (Fig. 1B), which is w100 times higher than that of native basal glucagon in mice (Malmgren & Ahren 2015), however, only two times higher than that of the glucagon response to hypoglycemia (Berglund et al 2008). The elevation of plasma ZP-GA-1 resulted in a significant lowering of insulin secretion in response to glucose compared to control (Fig.…”

Section: Resultsmentioning

confidence: 94%

Defective insulin secretion by chronic glucagon receptor activation in glucose intolerant mice

Ahlkvist

Omar

Valeur

et al. 2015

Journal of Endocrinology

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Stimulation of insulin secretion by short-term glucagon receptor (GCGR) activation is well characterized; however, the effect of long-term GCGR activation on b-cell function is not known, but of interest, since hyperglucagonemia occurs early during development of type 2 diabetes. Therefore, we examined whether chronic GCGR activation affects insulin secretion in glucose intolerant mice. To induce chronic GCGR activation, high-fat diet fed mice were continuously (2 weeks) infused with the stable glucagon analog ZP-GA-1 and challenged with oral glucose and intravenous glucoseGglucagon-like peptide 1 (GLP1). Islets were isolated to evaluate the insulin secretory response to glucoseGGLP1 and their pancreas were collected for immunohistochemical analysis. Two weeks of ZP-GA-1 infusion reduced insulin secretion both after oral and intravenous glucose challenges in vivo and in isolated islets. These inhibitory effects were corrected for by GLP1. Also, we observed increased b-cell area and islet size. We conclude that induction of chronic ZP-GA-1 levels in glucose intolerant mice markedly reduces insulin secretion, and thus, we suggest that chronic activation of the GCGR may contribute to the failure of b-cell function during development of type 2 diabetes.

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DPP-4 inhibition contributes to the prevention of hypoglycaemia through a GIP–glucagon counterregulatory axis in mice

Cited by 30 publications

References 45 publications

Glucagon – Early breakthroughs and recent discoveries

Glucagon – Early breakthroughs and recent discoveries

Improved glucose regulation in type 2 diabetic patients with DPP-4 inhibitors: focus on alpha and beta cell function and lipid metabolism

Defective insulin secretion by chronic glucagon receptor activation in glucose intolerant mice

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