三苯基锡通过降低葡萄糖诱导的 NADP(H) 和 ATP 产生来损害仓鼠胰腺β细胞中的胰岛素分泌。

Triphenyltin impairs insulin secretion by decreasing glucose-induced NADP(H) and ATP production in hamster pancreatic β-cells.

机构信息

Laboratory of International Epidemiology, Dokkyo Medical University School of Medicine, 880 Mibu, Tochigi 321-0293, Japan.

出版信息

Toxicology. 2012 Sep 28;299(2-3):165-71. doi: 10.1016/j.tox.2012.05.021. Epub 2012 Jun 1.

DOI:10.1016/j.tox.2012.05.021

PMID:22664483

Abstract

Oral administration of triphenyltin chloride (TPT) (6 mg/100g body weight) inhibits insulin secretion by decreasing glucose-induced cytoplasmic Ca(2+) concentration (Ca(2+)) in pancreatic β-cells of the hamster. To test the possibility that the abnormal level of the Ca(2+) induced by TPT administration could be due to a defect in the metabolic signal of glucose in the β-cells, we tested the effects of TPT administration on the glucose-induced NAD(P)H and ATP production, and on the changes of membrane potential and Ca(2+) by glucose and high K(+) in the β-cells. The Ca(2+) was measured in islet cells loaded with fura-2. TPT administration significantly reduced the NAD(P)H and ATP production, the depolarization of plasma membrane, and insulin secretion by 15 mM glucose in islet cells. TPT administration also reduced the insulin secretion by 10mM dihydroxyacetone and glyceraldehyde. However, TPT administration did not affect the increase of Ca(2+) and the insulin secretion by 30 mMK(+) or 100 μM tolbutamide, and the membrane potential by 30 mMK(+), and the insulin secretion by 10mM α-ketoisocaproic acid and 0.5mM formycin A, an analog of ATP in the presence of 15 mM glucose. These results suggested that the pathogenesis of TPT-induced hyperglycemia in hamster involves the reduction of Ca(2+) and insulin secretion in response to K(ATP) channel-dependent depolarization, which is related to the decrease of NAD(P)H and ATP production in pancreatic islet cells after glucose metabolism.

摘要

三苯基氯化锡（TPT）（6mg/100g 体重）经口给药可通过降低胰岛β细胞中葡萄糖诱导的细胞质 Ca2+浓度([Ca2+]i)来抑制胰岛素分泌。为了检验 TPT 给药引起的[Ca2+]i 异常水平可能是由于β细胞中葡萄糖代谢信号缺陷所致，我们检测了 TPT 给药对葡萄糖诱导的 NAD(P)H 和 ATP 产生的影响，以及葡萄糖和高 K+对β细胞中膜电位和[Ca2+]i 的变化的影响。在加载 fura-2 的胰岛细胞中测量[Ca2+]i。TPT 给药显著降低了胰岛细胞中 15mM 葡萄糖诱导的 NAD(P)H 和 ATP 产生、质膜去极化和胰岛素分泌。TPT 给药还降低了 10mM 二羟丙酮和甘油醛的胰岛素分泌。然而，TPT 给药不影响 30mM K+或 100μM 甲苯磺丁脲引起的[Ca2+]i 增加和胰岛素分泌，以及 30mM K+引起的膜电位增加，以及 10mM α-酮异己酸和 0.5mM 三磷酸腺苷类似物 formycin A 在 15mM 葡萄糖存在下引起的胰岛素分泌。这些结果表明，TPT 诱导的仓鼠高血糖的发病机制涉及 K(ATP)通道依赖性去极化引起的[Ca2+]i 和胰岛素分泌减少，这与葡萄糖代谢后胰岛细胞中 NAD(P)H 和 ATP 产生减少有关。

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三苯基锡通过降低葡萄糖诱导的 NADP(H) 和 ATP 产生来损害仓鼠胰腺β细胞中的胰岛素分泌。

Triphenyltin impairs insulin secretion by decreasing glucose-induced NADP(H) and ATP production in hamster pancreatic β-cells.

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