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十聚钒酸盐的毒理学与药理活性:V10 还是 V1,二者皆有还是二者皆无?

Decavanadate Toxicology and Pharmacological Activities: V10 or V1, Both or None?

作者信息

Aureliano M

机构信息

Faculty of Sciences and Technology, University of Algarve, Campus of Gambelas, 8005-135 Faro, Portugal; CCMar (Centre of Marine Sciences), University of Algarve, Campus of Gambelas, 8005-135 Faro, Portugal.

出版信息

Oxid Med Cell Longev. 2016;2016:6103457. doi: 10.1155/2016/6103457. Epub 2016 Jan 21.

DOI:10.1155/2016/6103457
PMID:26904166
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4745863/
Abstract

This review covers recent advances in the understanding of decavanadate toxicology and pharmacological applications. Toxicological in vivo studies point out that V10 induces several changes in several oxidative stress parameters, different from the ones observed for vanadate (V1). In in vitro studies with mitochondria, a particularly potent V10 effect, in comparison with V1, was observed in the mitochondrial depolarization (IC50 = 40 nM) and oxygen consumption (99 nM). It is suggested that mitochondrial membrane depolarization is a key event in decavanadate induction of necrotic cardiomyocytes death. Furthermore, only decavanadate species and not V1 potently inhibited myosin ATPase activity stimulated by actin (IC50 = 0.75 μM) whereas exhibiting lower inhibition activities for Ca(2+)-ATPase activity (15 μM) and actin polymerization (17 μM). Because both calcium pump and actin decavanadate interactions lead to its stabilization, it is likely that V10 interacts at specific locations with these proteins that protect against hydrolysis but, on the other hand, it may induce V10 reduction to oxidovanadium(IV). Putting it all together, it is suggested that the pharmacological applications of V10 species and compounds whose mechanism of action is still to be clarified might involve besides V10 and V1 also vanadium(IV) species.

摘要

本综述涵盖了在十钒酸盐毒理学和药理学应用理解方面的最新进展。体内毒理学研究指出,V10会在多个氧化应激参数上引发多种变化,这与钒酸盐(V1)所观察到的不同。在对线粒体的体外研究中,与V1相比,在线粒体去极化(IC50 = 40 nM)和氧消耗(99 nM)方面观察到V10具有特别显著的作用。有人提出线粒体膜去极化是十钒酸盐诱导坏死性心肌细胞死亡的关键事件。此外,只有十钒酸盐物种而非V1能有效抑制由肌动蛋白刺激的肌球蛋白ATP酶活性(IC50 = 0.75 μM),而对Ca(2 +)-ATP酶活性(15 μM)和肌动蛋白聚合(17 μM)的抑制活性较低。由于钙泵和肌动蛋白与十钒酸盐的相互作用都会使其稳定,V10可能在特定位置与这些防止水解的蛋白质相互作用,但另一方面,它可能会诱导V10还原为氧化钒(IV)。综上所述,有人提出,作用机制仍有待阐明的V10物种和化合物的药理学应用除了涉及V10和V1外,可能还涉及钒(IV)物种。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c12/4745863/7a7ad03ef2db/OMCL2016-6103457.001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c12/4745863/7a7ad03ef2db/OMCL2016-6103457.001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5c12/4745863/7a7ad03ef2db/OMCL2016-6103457.001.jpg

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