Removal of Ca super(2+) Channel beta sub(3) Subunit Enhances Ca super(2+) Oscillation Frequency and Insulin Exocytosis

An oscillatory increase in pancreatic beta cell cytoplasmic free Ca super(2+) concentration, [Ca super(2+)] sub(i), is a key feature in glucose-induced insulin release. The role of the voltage-gated Ca super(2+) channel beta sub(3) subunit in the molecular regulation of these [Ca super(2+)] sub(i) o...

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Veröffentlicht in:	Cell 2004-10, Vol.119 (2), p.273-284
Hauptverfasser:	Berggren, P-O, Yang, S-N, Murakami, M, Efanov, A M, Uhles, S, Koehler, M, Moede, T, Fernstroem, A, Appelskog, IB, Aspinwall, CA, Zaitsev, S V, Larsson, O, De Vargas, LM, Fecher-Trost, C, Weissgerber, P, Ludwig, A, Leibiger, B, Juntti-Berggren, L, Barker, C J, Gromada, J, Freichel, M, Leibiger, IB, Flockerzi, V
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creator	Berggren, P-O Yang, S-N Murakami, M Efanov, A M Uhles, S Koehler, M Moede, T Fernstroem, A Appelskog, IB Aspinwall, CA Zaitsev, S V Larsson, O De Vargas, LM Fecher-Trost, C Weissgerber, P Ludwig, A Leibiger, B Juntti-Berggren, L Barker, C J Gromada, J Freichel, M Leibiger, IB Flockerzi, V
description	An oscillatory increase in pancreatic beta cell cytoplasmic free Ca super(2+) concentration, [Ca super(2+)] sub(i), is a key feature in glucose-induced insulin release. The role of the voltage-gated Ca super(2+) channel beta sub(3) subunit in the molecular regulation of these [Ca super(2+)] sub(i) oscillations has now been clarified by using beta sub(3) subunit-deficient beta cells. beta sub(3) knockout mice showed a more efficient glucose homeostasis compared to wild-type mice due to increased glucose-stimulated insulin secretion. This resulted from an increased glucose-induced [Ca super(2+)] sub(i) oscillation frequency in beta cells lacking the beta sub(3) subunit, an effect accounted for by enhanced formation of inositol 1,4,5-trisphosphate (InsP sub(3)) and increased Ca super(2+) mobilization from intracellular stores. Hence, the beta sub(3) subunit negatively modulated InsP sub(3)-induced Ca super(2+) release, which is not paralleled by any effect on the voltage-gated L type Ca super(2+) channel. Since the increase in insulin release was manifested only at high glucose concentrations, blocking the beta sub(3) subunit in the beta cell may constitute the basis for a novel diabetes therapy.
doi_str_mv	10.1016/j.cell.2004.09.033
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The role of the voltage-gated Ca super(2+) channel beta sub(3) subunit in the molecular regulation of these [Ca super(2+)] sub(i) oscillations has now been clarified by using beta sub(3) subunit-deficient beta cells. beta sub(3) knockout mice showed a more efficient glucose homeostasis compared to wild-type mice due to increased glucose-stimulated insulin secretion. This resulted from an increased glucose-induced [Ca super(2+)] sub(i) oscillation frequency in beta cells lacking the beta sub(3) subunit, an effect accounted for by enhanced formation of inositol 1,4,5-trisphosphate (InsP sub(3)) and increased Ca super(2+) mobilization from intracellular stores. Hence, the beta sub(3) subunit negatively modulated InsP sub(3)-induced Ca super(2+) release, which is not paralleled by any effect on the voltage-gated L type Ca super(2+) channel. 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The role of the voltage-gated Ca super(2+) channel beta sub(3) subunit in the molecular regulation of these [Ca super(2+)] sub(i) oscillations has now been clarified by using beta sub(3) subunit-deficient beta cells. beta sub(3) knockout mice showed a more efficient glucose homeostasis compared to wild-type mice due to increased glucose-stimulated insulin secretion. This resulted from an increased glucose-induced [Ca super(2+)] sub(i) oscillation frequency in beta cells lacking the beta sub(3) subunit, an effect accounted for by enhanced formation of inositol 1,4,5-trisphosphate (InsP sub(3)) and increased Ca super(2+) mobilization from intracellular stores. Hence, the beta sub(3) subunit negatively modulated InsP sub(3)-induced Ca super(2+) release, which is not paralleled by any effect on the voltage-gated L type Ca super(2+) channel. 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The role of the voltage-gated Ca super(2+) channel beta sub(3) subunit in the molecular regulation of these [Ca super(2+)] sub(i) oscillations has now been clarified by using beta sub(3) subunit-deficient beta cells. beta sub(3) knockout mice showed a more efficient glucose homeostasis compared to wild-type mice due to increased glucose-stimulated insulin secretion. This resulted from an increased glucose-induced [Ca super(2+)] sub(i) oscillation frequency in beta cells lacking the beta sub(3) subunit, an effect accounted for by enhanced formation of inositol 1,4,5-trisphosphate (InsP sub(3)) and increased Ca super(2+) mobilization from intracellular stores. Hence, the beta sub(3) subunit negatively modulated InsP sub(3)-induced Ca super(2+) release, which is not paralleled by any effect on the voltage-gated L type Ca super(2+) channel. Since the increase in insulin release was manifested only at high glucose concentrations, blocking the beta sub(3) subunit in the beta cell may constitute the basis for a novel diabetes therapy.</abstract><doi>10.1016/j.cell.2004.09.033</doi></addata></record>
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title	Removal of Ca super(2+) Channel beta sub(3) Subunit Enhances Ca super(2+) Oscillation Frequency and Insulin Exocytosis
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