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海洋毒素与细胞骨架:关于岩沙海葵毒素毒性的新观点。

Marine toxins and the cytoskeleton: a new view of palytoxin toxicity.

作者信息

Louzao M Carmen, Ares Isabel R, Cagide Eva

机构信息

Departamento de Farmacologia, Facultad de Veterinaria, Universidad de Santiago de Compostela, Lugo, Spain.

出版信息

FEBS J. 2008 Dec;275(24):6067-74. doi: 10.1111/j.1742-4658.2008.06712.x. Epub 2008 Oct 24.

Abstract

Palytoxin is a marine toxin first isolated from zoanthids (genus Palythoa), even though dinoflagellates of the genus Ostreopsis are the most probable origin of the toxin. Ostreopsis has a wide distribution in tropical and subtropical areas, but recently these dinoflagellates have also started to appear in the Mediterranean Sea. Two of the most remarkable properties of palytoxin are the large and complex structure (with different analogs, such as ostreocin-D or ovatoxin-a) and the extreme acute animal toxicity. The Na(+)/K(+)-ATPase has been proposed as receptor for palytoxin. The marine toxin is known to act on the Na(+) pump and elicit an increase in Na(+) permeability, which leads to depolarization and a secondary Ca(2+) influx, interfering with some functions of cells. Studies on the cellular cytoskeleton have revealed that the signaling cascade triggered by palytoxin leads to actin filament system distortion. The activity of palytoxin on the actin cytoskeleton is only partially associated with the cytosolic Ca(2+) changes; therefore, this ion represents an important factor in altering this structure, but it is not the only cause. The goal of the present minireview is to compile the findings reported to date about: (a) how palytoxin and analogs are able to modify the actin cytoskeleton within different cellular models; and (b) what signaling mechanisms could be involved in the modulation of cytoskeletal dynamics by palytoxin.

摘要

岩沙海葵毒素是一种海洋毒素,最初是从群体海葵(岩沙海葵属)中分离出来的,尽管原多甲藻属的甲藻最有可能是这种毒素的来源。原多甲藻在热带和亚热带地区分布广泛,但最近这些甲藻也开始在地中海出现。岩沙海葵毒素最显著的两个特性是其庞大而复杂的结构(有不同的类似物,如原多甲藻毒素-D或卵毒素-a)以及极高的急性动物毒性。有人提出钠钾ATP酶是岩沙海葵毒素的受体。已知这种海洋毒素作用于钠泵,引起钠通透性增加,导致去极化和继发性钙内流,从而干扰细胞的某些功能。对细胞细胞骨架的研究表明,岩沙海葵毒素触发的信号级联反应会导致肌动蛋白丝系统变形。岩沙海葵毒素对肌动蛋白细胞骨架的作用仅部分与胞质钙变化有关;因此,这种离子是改变这种结构的一个重要因素,但不是唯一原因。本微型综述的目的是汇总迄今报道的有关以下方面的研究结果:(a)岩沙海葵毒素及其类似物如何能够在不同细胞模型中改变肌动蛋白细胞骨架;(b)岩沙海葵毒素调节细胞骨架动力学可能涉及哪些信号机制。

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