Abstract

Obesity and consequent insulin resistance are known risk factors for type 2 diabetes. A compensatory increase in beta cell function and mass in response to insulin resistance permits maintenance of normal glucose homeostasis, whereas failure to do so results in beta cell failure and type 2 diabetes. Recent evidence suggests that the circadian system is essential for proper metabolic control and regulation of beta cell function. We set out to address the hypothesis that the beta cell circadian clock is essential for the appropriate functional and morphological beta cell response to insulin resistance. We employed conditional deletion of the Bmal1 (also known as Arntl) gene (encoding a key circadian clock transcription factor) in beta cells using the tamoxifen-inducible CreER(T) recombination system. Upon adulthood, Bmal1 deletion in beta cells was achieved and mice were exposed to either chow or high fat diet (HFD). Changes in diurnal glycaemia, glucose tolerance and insulin secretion were longitudinally monitored in vivo and islet morphology and turnover assessed by immunofluorescence. Isolated islet experiments in vitro were performed to delineate changes in beta cell function and transcriptional regulation of cell proliferation. Adult Bmal1 deletion in beta cells resulted in failed metabolic adaptation to HFD characterised by fasting and diurnal hyperglycaemia, glucose intolerance and loss of glucose-stimulated insulin secretion. Importantly, HFD-induced beta cell expansion was absent following beta cell Bmal1 deletion indicating impaired beta cell proliferative and regenerative potential, which was confirmed by assessment of transcriptional profiles in isolated islets. Results of the study suggest that the beta cell circadian clock is a novel regulator of compensatory beta cell expansion and function in response to increased insulin demand associated with diet-induced obesity.

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