Increased cytosolic calcium. A signal for sulfonylurea-stimulated insulin release from beta cells
The mechanisms by which glyburide and tolbutamide signal insulin secretion were examined using a beta cell line (Hamster insulin-secreting tumor (HIT) cells). Insulin secretion was measured in static incubations, free cytosolic Ca2+ concentration ([Ca2+]i) was monitored in quin 2-loaded cells, and c...
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Veröffentlicht in: | The Journal of biological chemistry 1987-02, Vol.262 (6), p.2608-2612 |
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Sprache: | eng |
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Zusammenfassung: | The mechanisms by which glyburide and tolbutamide signal insulin secretion were examined using a beta cell line (Hamster insulin-secreting tumor (HIT) cells). Insulin secretion was measured in static incubations, free cytosolic Ca2+ concentration ([Ca2+]i) was monitored in quin 2-loaded cells, and cAMP quantitated by radioimmunoassay. Insulin secretory dose-response curves utilizing static incubations fit a single binding site model and established that glyburide (ED50 = 112 +/- 18 nM) is a more potent secretagogue than tolbutamide (ED50 = 15 +/- 3 microM). Basal HIT cell [Ca2+]i was 76 +/- 7 nM (mean +/- S.E., n = 141) and increased in a dose-dependent manner with both glyburide and tolbutamide with ED50 values of 525 +/- 75 nM and 67 +/- 9 microM, respectively. The less active tolbutamide metabolite, carboxytolbutamide, had no effect on [Ca2+]i or insulin secretion. Chelation of extracellular Ca2+ with 4 mM EGTA completely inhibited the sulfonylurea-induced changes in [Ca2+]i and insulin release and established that the rise in [Ca2+]i came from an extracellular Ca2+ pool. The Ca2+ channel blocker, verapamil, inhibited glyburide- or tolbutamide-stimulated insulin release and the rise in [Ca2+]i at similar concentrations with IC50 values of 3 and 2.5 microM, respectively. At all concentrations tested, the sulfonylureas did not alter HIT cell cAMP content. These findings provide direct experimental evidence that glyburide and tolbutamide allow extracellular Ca2+ to enter the beta cell through verapamil-sensitive, voltage-dependent Ca2+ channels, causing a rise in [Ca2+]i which is the second messenger that stimulates insulin release. |
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ISSN: | 0021-9258 1083-351X |
DOI: | 10.1016/S0021-9258(18)61549-2 |