Literature DB >> 28115396

Evidence That the Sympathetic Nervous System Elicits Rapid, Coordinated, and Reciprocal Adjustments of Insulin Secretion and Insulin Sensitivity During Cold Exposure.

Gregory J Morton1, Kenjiro Muta1, Karl J Kaiyala2, Jennifer M Rojas1, Jarrad M Scarlett1,3, Miles E Matsen1, Jarrell T Nelson1, Nikhil K Acharya1, Francesca Piccinini4, Darko Stefanovski5, Richard N Bergman4, Gerald J Taborsky6, Steven E Kahn6, Michael W Schwartz7.   

Abstract

Dynamic adjustment of insulin secretion to compensate for changes of insulin sensitivity that result from alteration of nutritional or metabolic status is a fundamental aspect of glucose homeostasis. To investigate the role of the brain in this coupling process, we used cold exposure as an experimental paradigm because the sympathetic nervous system (SNS) helps to coordinate the major shifts of tissue glucose utilization needed to ensure that increased thermogenic needs are met. We found that glucose-induced insulin secretion declined by 50% in rats housed at 5°C for 28 h, and yet, glucose tolerance did not change, owing to a doubling of insulin sensitivity. These potent effects on insulin secretion and sensitivity were fully reversed by returning animals to room temperature (22°C) for 4 h or by intravenous infusion of the α-adrenergic receptor antagonist phentolamine for only 30 min. By comparison, insulin clearance was not affected by cold exposure or phentolamine infusion. These findings offer direct evidence of a key role for the brain, acting via the SNS, in the rapid, highly coordinated, and reciprocal changes of insulin secretion and insulin sensitivity that preserve glucose homeostasis in the setting of cold exposure.
© 2017 by the American Diabetes Association.

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Year:  2017        PMID: 28115396      PMCID: PMC5360298          DOI: 10.2337/db16-1351

Source DB:  PubMed          Journal:  Diabetes        ISSN: 0012-1797            Impact factor:   9.461


  38 in total

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