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Research Article Free access | 10.1172/JCI117483
Laboratoire de Physiopathologie de la Nutrition, CNRS URA 307, Université Paris 7-Denis Diderot, France.
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Laboratoire de Physiopathologie de la Nutrition, CNRS URA 307, Université Paris 7-Denis Diderot, France.
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Laboratoire de Physiopathologie de la Nutrition, CNRS URA 307, Université Paris 7-Denis Diderot, France.
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Laboratoire de Physiopathologie de la Nutrition, CNRS URA 307, Université Paris 7-Denis Diderot, France.
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Laboratoire de Physiopathologie de la Nutrition, CNRS URA 307, Université Paris 7-Denis Diderot, France.
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Laboratoire de Physiopathologie de la Nutrition, CNRS URA 307, Université Paris 7-Denis Diderot, France.
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Laboratoire de Physiopathologie de la Nutrition, CNRS URA 307, Université Paris 7-Denis Diderot, France.
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Laboratoire de Physiopathologie de la Nutrition, CNRS URA 307, Université Paris 7-Denis Diderot, France.
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Published October 1, 1994 - More info
The fact that the potentiating effect of prolonged hyperglycemia on the subsequent insulin secretion is observed in vivo but not in vitro suggests the involvement of extrapancreatic factors in the in vivo memory of pancreatic beta cells to glucose. We have investigated the possible role of the autonomic nervous system. Rats were made hyperglycemic by a 48-h infusion with glucose (HG rats). At the end of glucose infusion as well as 6 h postinfusion, both parasympathetic and sympathetic nerve activities were profoundly altered: parasympathetic and sympathetic activities, assessed by the firing rate either of the thoracic vagus nerve or the superior cervical ganglion, were dramatically increased and decreased, respectively. Moreover, 6 h after the end of glucose infusion, insulin secretion in response to a glucose load was dramatically increased in HG rats compared to controls. To determine whether these changes could be responsible for the increased sensitivity of the beta cell to glucose, insulin release in response to glucose was measured in HG and control rats, either under subdiaphragmatic vagotomy or after administration of the alpha 2A-adrenergic agonist oxymetazoline. Both treatments partially abolished the hyperresponsiveness of the beta cell to glucose in HG rats. Therefore chronic hyperglycemia brings about changes in the activity of the autonomic nervous system, which in turn are responsible, at least in part, for the generation of enhanced beta cell responsiveness to glucose in vivo.