Effects of a Novel Glucagon Receptor Antagonist (Bay 27-9955) on Glucagon-stimulated Glucose Production in Humans
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Aims/hypothesis: To study the effects of a specific glucagon receptor antagonist (Bay 27-9955), on plasma glucose concentrations and rates of glucose production in response to hyperglucagonaemia in humans.
Methods: The study was conducted as a two-dose [Low Dose Bay 27-9955 70 mg, (n = 6), High Dose Bay 27-9955 200 mg, (n = 8)], double blind, placebo controlled, crossover study. Basal glucose production was measured after an overnight fast with [6,6-2H]. At 0 min Bay 27-9955 or placebo was administered and at 120 min an infusion of somatostatin [0.1 microg x (kg x min)(-1)], insulin [24 pmol x (m2 x min)(-1)] and glucagon [3 ng x (kg x min)(-1)] was initiated.
Results: Basal plasma glucose concentrations were about 5 mmol/l and basal rates of glucose production were about 13 micromol x (kg x min)(-1). During the hyperglucagonaemic period, plasma glucagon concentrations doubled to 100 pg/ml, plasma glucose concentration increased by 75 % to a peak of about 10 mmol/l and glucose production doubled to about 23 micromol x (kg x min)(-1) (p < 0.0001 vs basal). In the High Dose Group these effects of glucagon were markedly blunted, plasma glucose concentrations were 7.6 +/- 1.1 mmol/l (p = 0.012 vs placebo) and rates of glucose production increased minimally to 15.3 +/- 1.9 micromol x (kg-min)(-1) (p < 0.0003 vs placebo]. In the Low Dose Group, there was a proportional decrease in the effects of Bay 27-9955 on these parameters.
Conclusion/interpretation: Bay 27-9955 is an effective and safe glucagon antagonist in humans. Given the potentially important role of glucagon in increasing glucose production and gluconeogenesis in patients with Type II (non-insulin-dependent) diabetes mellitus this agent could represent an innovative class of therapeutic agents for the disease.
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Regulated and adaptive in vivo insulin secretion from islets only containing β-cells.
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Wang M, Fu X, Du L, Shi F, Huang Z, Yang L Int J Mol Sci. 2024; 25(15).
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Ji L, Gao L, Feng Z, Chen G, Fu J, Morgan E Diabetes Ther. 2024; 15(10):2183-2196.
PMID: 39008234 PMC: 11410740. DOI: 10.1007/s13300-024-01617-3.
Glucagon resistance and metabolic-associated steatotic liver disease: a review of the evidence.
McGlone E, Bloom S, Tan T J Endocrinol. 2024; 261(3).
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