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2
Ca2+ controls slow NAD(P)H oscillations in glucose-stimulated mouse pancreatic islets.钙离子调控葡萄糖刺激的小鼠胰岛中缓慢的烟酰胺腺嘌呤二核苷酸(磷酸)(NAD(P)H)振荡。
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Glucose metabolism, islet architecture, and genetic homogeneity in imprinting of [Ca2+](i) and insulin rhythms in mouse islets.葡萄糖代谢、胰岛结构以及印记基因对小鼠胰岛 [Ca2+](i) 和胰岛素节律的影响。
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本文引用的文献

1
Long lasting synchronization of calcium oscillations by cholinergic stimulation in isolated pancreatic islets.胆碱能刺激对离体胰岛钙振荡的长期同步作用
Biophys J. 2008 Nov 15;95(10):4676-88. doi: 10.1529/biophysj.107.125088. Epub 2008 Aug 15.
2
Measurement of pulsatile insulin secretion in the rat: direct sampling from the hepatic portal vein.大鼠搏动性胰岛素分泌的测量:经肝门静脉直接采样。
Am J Physiol Endocrinol Metab. 2008 Sep;295(3):E569-74. doi: 10.1152/ajpendo.90335.2008. Epub 2008 Jun 24.
3
Metabolic and electrical oscillations: partners in controlling pulsatile insulin secretion.代谢振荡与电振荡:调控脉冲式胰岛素分泌的协同因素
Am J Physiol Endocrinol Metab. 2007 Oct;293(4):E890-900. doi: 10.1152/ajpendo.00359.2007. Epub 2007 Jul 31.
4
Interaction of glycolysis and mitochondrial respiration in metabolic oscillations of pancreatic islets.胰腺胰岛代谢振荡中糖酵解与线粒体呼吸的相互作用。
Biophys J. 2007 Mar 1;92(5):1544-55. doi: 10.1529/biophysj.106.097154. Epub 2006 Dec 15.
5
Mathematical simulation of membrane processes and metabolic fluxes of the pancreatic beta-cell.胰腺β细胞的膜过程和代谢通量的数学模拟。
Bull Math Biol. 2006 Oct;68(7):1779-818. doi: 10.1007/s11538-005-9053-9. Epub 2006 Jul 11.
6
Ca2+ controls slow NAD(P)H oscillations in glucose-stimulated mouse pancreatic islets.钙离子调控葡萄糖刺激的小鼠胰岛中缓慢的烟酰胺腺嘌呤二核苷酸(磷酸)(NAD(P)H)振荡。
J Physiol. 2006 Apr 15;572(Pt 2):379-92. doi: 10.1113/jphysiol.2005.101766. Epub 2006 Feb 2.
7
Glucose-induced mixed [Ca2+]c oscillations in mouse beta-cells are controlled by the membrane potential and the SERCA3 Ca2+-ATPase of the endoplasmic reticulum.葡萄糖诱导的小鼠β细胞中混合的[Ca2+]c振荡受膜电位和内质网的SERCA3 Ca2+-ATP酶调控。
Am J Physiol Cell Physiol. 2006 Jun;290(6):C1503-11. doi: 10.1152/ajpcell.00400.2005. Epub 2005 Dec 28.
8
Individual mice can be distinguished by the period of their islet calcium oscillations: is there an intrinsic islet period that is imprinted in vivo?单个小鼠可通过其胰岛钙振荡的周期来区分:是否存在一种在体内被印记的内在胰岛周期?
Diabetes. 2005 Dec;54(12):3517-22. doi: 10.2337/diabetes.54.12.3517.
9
Adenine nucleotide regulation in pancreatic beta-cells: modeling of ATP/ADP-Ca2+ interactions.胰腺β细胞中的腺嘌呤核苷酸调节:ATP/ADP-Ca2+相互作用的建模
Am J Physiol Endocrinol Metab. 2005 Nov;289(5):E839-48. doi: 10.1152/ajpendo.00595.2004. Epub 2005 Jun 28.
10
Crosstalk between membrane potential and cytosolic Ca2+ concentration in beta cells from Sur1-/- mice.Sur1基因敲除小鼠β细胞中膜电位与胞质钙离子浓度之间的相互作用
Diabetologia. 2005 May;48(5):913-21. doi: 10.1007/s00125-005-1720-8. Epub 2005 Apr 14.

胰岛中的代谢波动取决于细胞内 Ca2+ 水平而非 Ca2+ 波动。

Metabolic oscillations in pancreatic islets depend on the intracellular Ca2+ level but not Ca2+ oscillations.

机构信息

Department of Pharmacology and Brehm Diabetes Center, University of Michigan Medical School, Ann Arbor, Michigan, USA.

出版信息

Biophys J. 2010 Jul 7;99(1):76-84. doi: 10.1016/j.bpj.2010.04.012.

DOI:10.1016/j.bpj.2010.04.012
PMID:20655835
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2895383/
Abstract

Plasma insulin is pulsatile and reflects oscillatory insulin secretion from pancreatic islets. Although both islet Ca(2+) and metabolism oscillate, there is disagreement over their interrelationship, and whether they can be dissociated. In some models of islet oscillations, Ca(2+) must oscillate for metabolic oscillations to occur, whereas in others metabolic oscillations can occur without Ca(2+) oscillations. We used NAD(P)H fluorescence to assay oscillatory metabolism in mouse islets stimulated by 11.1 mM glucose. After abolishing Ca(2+) oscillations with 200 microM diazoxide, we observed that oscillations in NAD(P)H persisted in 34% of islets (n = 101). In the remainder of the islets (66%) both Ca(2+) and NAD(P)H oscillations were eliminated by diazoxide. However, in most of these islets NAD(P)H oscillations could be restored and amplified by raising extracellular KCl, which elevated the intracellular Ca(2+) level but did not restore Ca(2+) oscillations. Comparatively, we examined islets from ATP-sensitive K(+) (K(ATP)) channel-deficient SUR1(-/-) mice. Again NAD(P)H oscillations were evident even though Ca(2+) and membrane potential oscillations were abolished. These observations are predicted by the dual oscillator model, in which intrinsic metabolic oscillations and Ca(2+) feedback both contribute to the oscillatory islet behavior, but argue against other models that depend on Ca(2+) oscillations for metabolic oscillations to occur.

摘要

血浆胰岛素呈脉冲式分泌,反映了胰岛的胰岛素分泌振荡。尽管胰岛的 Ca(2+)和代谢都存在振荡,但它们之间的关系以及它们是否可以分离存在分歧。在一些胰岛振荡模型中,代谢振荡的发生必须依赖于 Ca(2+)振荡,而在另一些模型中,代谢振荡可以在没有 Ca(2+)振荡的情况下发生。我们使用 NAD(P)H 荧光来检测 11.1mM 葡萄糖刺激的小鼠胰岛中的代谢振荡。用 200μM 二氮嗪消除 Ca(2+)振荡后,我们观察到 34%的胰岛(n=101)中 NAD(P)H 振荡仍然存在。在其余的胰岛(66%)中,Ca(2+)和 NAD(P)H 振荡都被二氮嗪消除。然而,在这些胰岛中的大多数中,通过提高细胞外 KCl 可以恢复和放大 NAD(P)H 振荡,这会升高细胞内 Ca(2+)水平,但不会恢复 Ca(2+)振荡。相比之下,我们检查了来自 ATP 敏感的 K(+)(K(ATP))通道缺陷 SUR1(-/-)小鼠的胰岛。即使 Ca(2+)和膜电位振荡被消除,NAD(P)H 振荡仍然明显。这些观察结果与双振荡器模型一致,该模型认为,内在代谢振荡和 Ca(2+)反馈都有助于振荡的胰岛行为,但与其他依赖 Ca(2+)振荡发生代谢振荡的模型不一致。