血小板活化因子——神经损伤的关键介质?

K U Frerichs, G Z Feuerstein
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摘要

越来越多的证据支持血小板活化因子(PAF)可能是神经损伤的关键介质的假设。PAF最初是从受刺激的嗜碱性粒细胞中分离出来的,可由多种细胞产生,如多形核白细胞(PMNLs)、血小板、单核细胞、巨噬细胞和内皮细胞,并被认为是炎症、血小板和中性粒细胞活化、血浆外渗和过敏性休克的介质。据报道,缺血半暗区磷脂代谢增强,为PAF的产生提供了机会。越来越多的报道表明,这种脂质介质可能参与与脑缺血和神经损伤相关的过程。PAF对神经元细胞产生细胞毒性作用,引起血管收缩,增加血脑屏障通透性。PAF拮抗剂的有益作用已在各种脑缺血模型中得到证实:缺血前和缺血后应用PAF拮抗剂可减少水肿,改善神经系统预后和改善脑微循环。这些作用与改善神经元存活和减少PMNLs积累相关,支持PAF与PMNLs之间在这些过程中的联系和正反馈。由于PAF似乎独特地参与各种病理生理事件,它可能是缺血性和创伤性神经损伤的关键介质。本文综述了目前对PAF在中枢神经系统生理学和病理学方面的功能和生物化学的认识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Platelet-activating factor--key mediator in neuroinjury?

A growing body of evidence supports the hypothesis that platelet-activating factor (PAF) may be a key mediator in neuroinjury. PAF, originally isolated from stimulated basophils, can be produced by a variety of cells, such as polymorphonuclear leukocytes (PMNLs), platelets, monocytes, macrophages, and endothelial cells and has been suggested as a mediator of inflammation, platelet and neutrophil activation, plasma extravasation, and anaphylactic shock. Enhanced phospholipid metabolism in the ischemic penumbral zone has been reported and provides opportunity for production of PAF. A possible involvement of this lipid mediator in processes associated with cerebral ischemia and neurotrauma has been suggested by an increasing number of reports. PAF exerts cytotoxic effects on neuronal cells, causes vasoconstriction, and increases the blood-brain barrier permeability. Beneficial effects of PAF antagonists have been shown in various models of cerebral ischemia: pre- as well as postischemic application of the PAF antagonist resulted in reduction of edema and improved neurological outcome and improved cerebral microcirculation. These effects were correlated with improved neuronal survival and reduced accumulation of PMNLs, supporting a link and positive feedback between PAF and PMNLs in these processes. Since PAF appears to be uniquely involved in various pathophysiological events, it may function as a key mediator in ischemic and traumatic neuroinjury. The current review summarizes the current understanding of the function and biochemistry of PAF with respect to CNS physiology and pathology.

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