二氮嗪通过在亚毫摩尔范围内打开 mKATP 通道来影响线粒体生物能学。

Diazoxide affects mitochondrial bioenergetics by the opening of mKATP channel on submicromolar scale.

机构信息

Circulation department, Bogomoletz Institute of Physiology, NAS of Ukraine, Bogomoletz str. 4, Kiev, 01601, Ukraine.

Hypoxic States Research Department, Bogomoletz Institute of Physiology, NAS of Ukraine, Kiev, Ukraine.

出版信息

BMC Mol Cell Biol. 2020 Apr 19;21(1):31. doi: 10.1186/s12860-020-00275-0.

DOI:10.1186/s12860-020-00275-0

PMID:32306897

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7168813/

Abstract

BACKGROUND

Cytoprotection afforded by mitochondrial ATP-sensitive K-channel (mK-channel) opener diazoxide (DZ) largely depends on the activation of potassium cycle with eventual modulation of mitochondrial functions and ROS production. However, generally these effects were studied in the presence of Mg∙ATP known to block K transport. Thus, the purpose of our work was the estimation of DZ effects on K transport, K cycle and ROS production in rat liver mitochondria in the absence of Mg∙ATP.

RESULTS

Without Mg·ATP, full activation of native mK-channel, accompanied by the increase in ATP-insensitive K uptake, activation of K-cycle and respiratory uncoupling, was reached at ≤0.5 μM of DZ,. Higher diazoxide concentrations augmented ATP-insensitive K uptake, but not mK-channel activity. mK-channel was blocked by Mg·ATP, reactivated by DZ, and repeatedly blocked by mK-channel blockers glibenclamide and 5-hydroxydecanoate, whereas ATP-insensitive potassium transport was blocked by Mg and was not restored by DZ. High sensitivity of potassium transport to DZ in native mitochondria resulted in suppression of mitochondrial ROS production caused by the activation of K-cycle on sub-micromolar scale. Based on the oxygen consumption study, the share of mK-channel in respiratory uncoupling by DZ was found.

CONCLUSIONS

The study of mK-channel activation by diazoxide in the absence of MgATP discloses novel, not described earlier, aspects of mK-channel interaction with this drug. High sensitivity of mK-channel to DZ results in the modulation of mitochondrial functions and ROS production by DZ on sub-micromolar concentration scale. Our experiments led us to the hypothesis that under the conditions marked by ATP deficiency affinity of mK-channel to DZ can increase, which might contribute to the high effectiveness of this drug in cardio- and neuroprotection.

摘要

背景

线粒体 ATP 敏感性钾通道（mK 通道）开放剂二氮嗪（DZ）提供的细胞保护作用在很大程度上取决于钾循环的激活，最终调节线粒体功能和 ROS 产生。然而，通常这些作用是在已知可阻断 K 转运的 Mg∙ATP 存在下研究的。因此，我们的工作目的是在没有 Mg∙ATP 的情况下评估 DZ 对大鼠肝线粒体 K 转运、K 循环和 ROS 产生的影响。

结果

在没有 Mg·ATP 的情况下，≤0.5μM 的 DZ 即可完全激活天然 mK 通道，同时增加 ATP 不敏感的 K 摄取、激活 K 循环和呼吸解偶联。更高的二氮嗪浓度增加了 ATP 不敏感的 K 摄取，但没有增加 mK 通道的活性。mK 通道被 Mg·ATP 阻断，被 DZ 重新激活，并被 mK 通道抑制剂格列本脲和 5-羟基癸酸重复阻断，而 ATP 不敏感的钾转运被 Mg 阻断，且不能被 DZ 恢复。天然线粒体中 K 转运对 DZ 的高敏感性导致 K 循环的激活在亚毫摩尔范围内抑制了线粒体 ROS 的产生。基于耗氧量研究，发现了 DZ 通过 mK 通道引起的呼吸解偶联中 mK 通道的份额。

结论

在没有 MgATP 的情况下研究 DZ 对 mK 通道的激活揭示了 mK 通道与该药物相互作用的新的、以前未描述的方面。mK 通道对 DZ 的高敏感性导致 DZ 在亚毫摩尔浓度范围内调节线粒体功能和 ROS 产生。我们的实验使我们假设，在 ATP 缺乏的情况下，mK 通道对 DZ 的亲和力可能增加，这可能有助于这种药物在心脏和神经保护方面的高疗效。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d34c/7168813/0f730bc1eb7f/12860_2020_275_Fig1_HTML.jpg

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二氮嗪通过在亚毫摩尔范围内打开 mKATP 通道来影响线粒体生物能学。

Diazoxide affects mitochondrial bioenergetics by the opening of mKATP channel on submicromolar scale.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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