Metabolic Effects of Melatonin Treatment

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Modern living is associated with an epidemic of type 2 diabetes mellitus (T2DM). Sleep disturbances such as insomnia or frequent awakenings are strong risk factors for T2DM with several studies indicating a central role of melatonin. Additionally, a certain single nucleotide polymorphism in the mela...

Modern living is associated with an epidemic of type 2 diabetes mellitus (T2DM). Sleep disturbances such as insomnia or frequent awakenings are strong risk factors for T2DM with several studies indicating a central role of melatonin. Additionally, a certain single nucleotide polymorphism in the melatonin receptor gene, MTNR1B rs10830963, with an allele frequency of 30 %, is associated with increased fasting plasma glucose and T2DM. Due to treatment of, among other things, insomnia, the use of melatonin is increasing rapidly in Denmark with a 100-fold increase from 2007-2012 in children and adolescents. No previous studies have thoroughly assessed changes in glucose and fatty acid metabolism after 3 months of melatonin treatment in patients with T2DM. Main research questions: Does chronic melatonin treatment change insulin secretion in T2DM patients? Does chronic melatonin treatment change insulin sensitivity in T2DM patients? Does the MTNR1B rs10830963 risk allele alter the insulin secretion and insulin sensitivity compared with carries of the normal variant after chronic melatonin treatment? Does chronic melatonin treatment change insulin signalling in muscle - and adipose tissue? Design: A randomized, double-blinded, placebo controlled, crossover study, including 18 participants with T2DM. We aim to recruit 9 homozygous carriers of the normal allele and 9 hetero - or homozygous for the risk allele. Participants will be examined on two occasions, 1) after 3 months of daily melatonin treatment before bedtime (10 mg), and 2) after 3 months of daily placebo treatment before bedtime. On the study days, participants will initially undergo a basal period with glucose - and palmitate tracer infusions to assess endogenous glucose production and free fatty acid production. Afterwards a Botnia clamp, which combines an intravenous glucose tolerance test and a hyperinsulinemic euglycemic clamp, will be performed to assess ?-cell function and insulin sensitivity. On both study days muscle - and fat biopsies will be performed under both basal and hyperinsulinemic euglycemic conditions. Perspectives: It is highly relevant to evaluate the chronic effects of melatonin on glucose - and fat metabolism given the increase in melatonin consumption. Furthermore, the study may open for new treatment options of T2DM if beneficial effects of oral melatonin are detected.

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