First-phase insulin secretion: does it exist in real life? Considerations on shape and function

doi:10.1152/ajpendo.00139.2003

First-phase insulin secretion: does it exist in real life? Considerations on shape and function

Andrea Caumo¹ and Livio Luzi¹^,2

¹Unit of Nutrition and Metabolism, Department of Medicine, San Raffaele Scientific Institute, 20132 Milano; and ²Faculty of Exercise Sciences, University of Milano, 20100 Milano, Italy

Submitted 31 March 2003 ; accepted in final form 16 March 2004

To fulfill its preeminent function of regulating glucose metabolism,insulin secretion must not only be quantitatively appropriatebut also have qualitative, dynamic properties that optimizeinsulin action on target tissues. This review focuses on theimportance of the first-phase insulin secretion to glucose metabolismand attempts to illustrate the relationships between the first-phaseinsulin response to an intravenous glucose challenge and theearly insulin response following glucose ingestion. A clear-cutfirst phase occurs only when the ${beta}$ -cell is exposed to a rapidlychanging glucose stimulus, like the one induced by a brisk intravenousglucose administration. In contrast, peripheral insulin concentrationfollowing glucose ingestion does not bear any clear sign ofbiphasic shape. Coupling data from the literature with the resultsof a ${beta}$ -cell model simulation, a close relationship between thefirst-phase insulin response to intravenous glucose and theearly insulin response to glucose ingestion emerges. It appearsthat the same ability of the ${beta}$ -cell to produce a pronounced firstphase in response to an intravenous glucose challenge can generatea rapidly increasing early phase in response to the blood glucoseprofile following glucose ingestion. This early insulin responseto glucose is enhanced by the concomitant action of incretinsand neural responses to nutrient ingestion. Thus, under physiologicalcircumstances, the key feature of the early insulin responseseems to be the ability to generate a rapidly increasing insulinprofile. This notion is corroborated by recent experimentalevidence that the early insulin response, when assessed at theportal level with a frequent sampling, displays a pulsatilenature. Thus, even though the classical first phase does notexist under physiological conditions, the oscillatory behavioridentified at the portal level does serve the purpose of rapidlyexposing the liver to elevated insulin levels that, also invirtue of their up-and-down pattern, are particularly effectivein restraining hepatic glucose production.

insulin pulsatile secretion; mathematical models; early-phase insulin secretion

Address for reprint requests and other correspondence: L. Luzi, San Raffaele Scientific Institute, Via Olgettina, 60, 20132 Milano, Italy (E-mail: luzi.livio{at}hsr.it).

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