髓过氧物酶。

S J Klebanoff
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引用次数: 11

摘要

吞噬细胞对刺激的反应是消耗大量的氧气,而在呼吸爆发中消耗的额外氧气,如果不是全部的话,大部分首先转化为超氧阴离子,然后转化为过氧化氢(H2O2)。髓过氧化物酶(MPO)由中性粒细胞和单核细胞的细胞质颗粒在脱粒过程中释放出来,与呼吸爆发形成的H2O2反应形成复合物,可以氧化多种物质。后者是氯化物,它最初被氧化成次氯酸,随后形成氯和氯胺。这些mpo - h2o2 -氯化物体系的产物是强大的氧化剂,具有深远的生物效应。中性粒细胞的主要功能是吞噬和破坏微生物,将MPO和H2O2释放到含有摄入微生物的吞噬体中,通常会产生快速的杀微生物作用。慢性肉芽肿病(CGD)患者的中性粒细胞有杀微生物缺陷,这与没有呼吸爆发和H2O2产生有关。来自遗传性MPO缺乏症患者的中性粒细胞(缺乏MPO)也有杀微生物缺陷,尽管不像CGD那样严重。MPO和H2O2也可以释放到细胞外,在那里与氯化物反应可引起邻近组织的损伤,从而促进疾病的发病。有研究表明,肺损伤、肾小球损伤和动脉粥样硬化病变的起始可能是由MPO系统引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Myeloperoxidase.

Phagocytes respond to stimulation with a burst of oxygen consumption, and much, if not all, of the extra oxygen consumed in the respiratory burst is converted first to the superoxide anion and then to hydrogen peroxide (H2O2). Myeloperoxidase (MPO), which is released from cytoplasmic granules of neutrophils and monocytes by a degranulation process, reacts with the H2O2 formed by the respiratory burst to form a complex that can oxidize a large variety of substances. Among the latter is chloride, which is oxidized initially to hypochlorous acid, with the subsequent formation of chlorine and chloramines. These products of the MPO-H2O2-chloride system are powerful oxidants that can have profound biological effects. The primary function of neutrophils is the phagocytosis and destruction of microorganisms, and the release of MPO and H2O2 into the phagosome containing the ingested microorganism generally leads to a rapid microbicidal effect. Neutrophils from patients with chronic granulomatous disease (CGD) have a microbicidal defect that is associated with the absence of a respiratory burst and, thus, H2O2 production. Neutrophils from patients with a hereditary MPO deficiency, who lack MPO, also have a microbicidal defect, although it is not as severe as that seen in CGD. MPO and H2O2 also can be released to the outside of the cell where a reaction with chloride can induce damage to adjacent tissue and, thus, contribute to the pathogenesis of disease. It has been suggested that pulmonary injury, renal glomerular damage, and the initiation of atherosclerotic lesions may be caused by the MPO system.

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