过氧化氢对小鼠胰腺β细胞中刺激-分泌偶联的干扰。
Interference of H2O2 with stimulus-secretion coupling in mouse pancreatic beta-cells.
作者信息
Krippeit-Drews P, Kramer C, Welker S, Lang F, Ammon H P, Drews G
机构信息
Institute of Physiology, Gmelinstrasse 5, University of Tubingen, D-72076 Tubingen, Germany.
出版信息
J Physiol. 1999 Jan 15;514 ( Pt 2)(Pt 2):471-81. doi: 10.1111/j.1469-7793.1999.471ae.x.
Abstract
- We have reported previously that in mouse pancreatic beta-cells H2O2 hyperpolarizes the membrane and increases the ATP-sensitive K+ current recorded in the perforated patch configuration of the patch-clamp technique. The present study was undertaken to elucidate the underlying mechanisms. 2. The intracellular ATP concentration measured by chemoluminescence was reduced by H2O2. The ADP concentration increased in parallel during the first 10 min, resulting in a pronounced decrease in the ATP/ADP ratio. 3. Consistent with these results, glucose-stimulated insulin secretion from isolated islets was inhibited by H2O2. 4. Membrane hyperpolarization measured with intracellular microelectrodes in intact islets and inhibition of insulin secretion were counteracted by tolbutamide, indicating that the channels are still responsive to inhibitors and that the ATP concentration is not too low to trigger exocytosis. However, the sensitivity of the beta-cells to tolbutamide was reduced after treatment with H2O2. 5. H2O2 increased the intracellular Ca2+ activity ([Ca2+]i) in a biphasic manner. A first transient rise in [Ca2+]i due to mobilization of Ca2+ from intracellular stores was followed by a sustained increase, which was at least partly dependent on Ca2+ influx. The first phase seems to reflect Ca2+ mobilization from mitochondria. 6. Our results demonstrate that H2O2 interferes with glucose metabolism, which influences the membrane potential and ATP-sensitive K+ current via the intracellular concentration of ATP. These events finally lead to an inhibition of insulin secretion despite an increase in [Ca2+]i.
摘要
- 我们之前报道过,在小鼠胰腺β细胞中,过氧化氢会使细胞膜超极化,并增加在膜片钳技术的穿孔膜片配置中记录到的ATP敏感性钾电流。本研究旨在阐明其潜在机制。2. 通过化学发光法测量的细胞内ATP浓度被过氧化氢降低。在最初的10分钟内,ADP浓度平行增加,导致ATP/ADP比值显著下降。3. 与这些结果一致,过氧化氢抑制了分离胰岛中葡萄糖刺激的胰岛素分泌。4. 用细胞内微电极在完整胰岛中测量的膜超极化和胰岛素分泌的抑制被甲苯磺丁脲抵消,这表明通道仍然对抑制剂有反应,并且ATP浓度不至于过低而无法触发胞吐作用。然而,用过氧化氢处理后,β细胞对甲苯磺丁脲的敏感性降低。5. 过氧化氢以双相方式增加细胞内Ca2+活性([Ca2+]i)。由于细胞内储存库中Ca2+的动员,[Ca2+]i首先出现短暂升高,随后持续增加,这至少部分依赖于Ca2+内流。第一阶段似乎反映了线粒体中Ca2+的动员。6. 我们的结果表明,过氧化氢干扰葡萄糖代谢,通过细胞内ATP浓度影响膜电位和ATP敏感性钾电流。尽管[Ca2+]i增加,但这些事件最终导致胰岛素分泌受到抑制。
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