Altered functions of ion channels in diabetic beta cells.

Abstract

Selective impairment of glucose-induced insulin secretion and hyper-responsiveness to arginine are known features of GK rats, a genetic model of NIDDM. We focus on the ionic mechanism underlying these phenomena using patch-clamp techniques. Pancreatic islets were isolated from male GK rats and age-matched control Wistar rats and were subjected to dispersion and culture. Single channel recordings of KATP channels were performed using either on-cell mode or inside-out patch mode. Ca2+ channel currents were recorded under conventional whole-cell mode. In GK beta cells, ATP sensitivity of KATP channels itself was not altered, although glucose-induced closure of KATP channels was severely impaired. Among substrates for fuel metabolism, only dehydroxyacetone (DHA) reproduced this anomaly. On the other hand, current densities of L-type Ca2+ channels were increased in GK beta cells. Since DHA is a known substrate for glycerol phosphate shuttle, current data suggest that major metabolic deficit of GK beta cells resides in this shuttle. On the other hand, increased L-type Ca2+ channel activities might be an ionic basis for augmented insulin response to nonglucose depolarizing stimuli in GK beta cells.