Elevation of cytosolic calcium by imidazolines in mouse islets of Langerhans: implications for stimulus-response coupling of insulin release.
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Shepherd RM, Hashmi MN, Kane C, Squires PE, Dunne MJ
Elevation of cytosolic calcium by imidazolines in mouse islets of Langerhans: implications for stimulus-response coupling of insulin release.
Br J Pharmacol. 1996 Nov;119(5):911-6.
- PubMed ID
- 8922740 [ View in PubMed]
- Abstract
1. Microfluorimetry techniques with fura-2 were used to characterize the effects of efaroxan (200 microM), phenotolamine (200-500 microM) and idazoxan (200-500 microM) on the intracellular free Ca2+ concentration ([Ca2+]i) in mouse isolated islets of Langerhans. 2. The imidazoline receptor agonists efaroxan and phentolamine consistently elevated cytosolic Ca2+ by mechanisms that were dependent upon Ca2+ influx across the plasma membrane; there was no rise in [Ca2+]i when Ca2+ was removed from outside of the islets and diazoxide (100-250 microM) attenuated the responses. 3. Modulation of cytosolic [Ca2+]i by efaroxan and phentolamine was augmented by glucose (5-10 mM) which both potentiated the magnitude of the response and reduced the onset time of imidazoline-induced rises in [Ca2+]i. 4. Efaroxan- and phentolamine-evoked increases in [Ca2+]i were unaffected by overnight pretreatment of islets with the imidazolines. Idazoxan failed to increase [Ca2+]i under any experimental condition tested. 5. The putative endogenous ligand of imidazoline receptors, agmatine (1 microM-1 mM), blocked KATP channels in isolated patches of beta-cell membrane, but effects upon [Ca2+]i could not be further investigated since agmatine disrupts fura-2 fluorescence. 6. In conclusion, the present study shows that imidazolines will evoke rises in [Ca2+]i in intact islets, and this provides an explanation to account for the previously described effects of imidazolines on KATP channels, the cell membrane potential and insulin secretion in pancreatic beta-cells.
DrugBank Data that Cites this Article
- Drug Targets
Drug Target Kind Organism Pharmacological Action Actions Agmatine ATP-sensitive inward rectifier potassium channel 1 Protein Humans YesAntagonistDetails