丁咯地尔对人体中性粒细胞形态和功能的血液流变学影响。

Blood vessels Pub Date : 1991-01-01 DOI:10.1159/000158915
M R Boisseau, G Freyburger, F Belloc, M Seigneur
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引用次数: 6

摘要

采用功能试验和扫描电镜对丁咯地尔(BFL)及其衍生物CRL 41034对多形核细胞(PMN)的作用进行了体外研究。这两种药物表现出相同的效果。BFL不改变PMN的体外趋化性,但对zms诱导的PMN细胞聚集有调节作用。BFL也表现出以剂量和时间依赖的方式减少PMN的超氧化物产生。通过罗丹明-phalloidin结合分析,细胞骨架F-actin聚合在细胞总F-actin不变的情况下增加。当细胞扩展进行形态学研究时,与对照组相比,观察到假足形状以及PMN(棉质方面)的一般方面的变化。这些药物诱导的形状改变在粘附过程中可能是有效的。最后,后一种作用和对氧代谢物产生的影响可能是BFL在缺血期间保护微血管的另一种手段,除了其促进血管舒缩的特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hemorheological effects of buflomedil: action on shape and functions of the human neutrophils.

In vitro studies on the action of buflomedil (BFL) and its derivative CRL 41034 on the polymorphonuclear cells (PMN) has been performed using functional tests and scanning electron microscopy. The two drugs exhibited the same effects. BFL does not change the in vitro chemotaxis of PMN, but exhibits a regulatory effect on ZMS-induced aggregation of these cells. BFL also appeared to decrease superoxide production of PMN, in a dose- and time-dependent way. The cytoskeleton F-actin polymerization, analyzed through the binding of rhodamin-phalloidin, was increased when the total F-actin of the cells was unchanged. When cell extensions were studied morphologically a change in the shape of the pseudopods as well as the general aspect of the PMN (cottonous aspect) was observed as compared to controls. These drug-induced modifications in the shape change may be efficient in adhesion processes. Finally this latter effect and the influence on oxygen metabolite production could be another means of BFL to protect the microvessels during ischemia, in addition to its vasomotion promoting properties.

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