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中性粒细胞微粒将活性髓过氧化物酶传递至受损黏膜以抑制上皮伤口愈合。

Neutrophil Microparticles Deliver Active Myeloperoxidase to Injured Mucosa To Inhibit Epithelial Wound Healing.

作者信息

Slater Thomas W, Finkielsztein Ariel, Mascarenhas Lorraine A, Mehl Lindsey C, Butin-Israeli Veronika, Sumagin Ronen

机构信息

Department of Pathology, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611.

Department of Pathology, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611

出版信息

J Immunol. 2017 Apr 1;198(7):2886-2897. doi: 10.4049/jimmunol.1601810. Epub 2017 Feb 27.

DOI:10.4049/jimmunol.1601810
PMID:28242649
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5360559/
Abstract

Neutrophil (PMN) infiltration of the intestinal mucosa often leads to severe epithelial injury; however, how this process occurs is unclear. This article describes a novel mechanism whereby membrane-derived microparticles released by tissue infiltrating PMNs (PMN-MPs) serve as shuttles to protect and deliver active mediators to locally modulate cellular function during inflammation. Specifically, myeloperoxidase (MPO), which is abundantly expressed in PMN azurophilic granules and is used for microbial killing, was found to be mobilized to the PMN surface and subsequently released in association with PMN-MPs upon PMN activation and binding to intestinal epithelial cells (IECs). The enzymatic activity of PMN-MP-associated MPO was enhanced compared with soluble protein, leading to potent inhibition of wound closure following PMN-MP binding to IECs. Importantly, localized microinjection of PMN-MPs into wounded colonic mucosa was sufficient to impair epithelial wound healing in vivo. PMN-MP/MPO-dependent inhibition of IEC wound healing was due to impaired IEC migration and proliferation, resulting from impeded actin dynamics, cell spreading, and cell cycle arrest. Thus, our findings provide new insight into mechanisms governing PMN-induced tissue injury and implicate PMN-MPs and MPO as important regulators of cellular function.

摘要

中性粒细胞(PMN)浸润肠黏膜常导致严重的上皮损伤;然而,这一过程如何发生尚不清楚。本文描述了一种新机制,即组织浸润的PMN释放的膜衍生微粒(PMN-MPs)作为载体,在炎症过程中保护并递送活性介质以局部调节细胞功能。具体而言,髓过氧化物酶(MPO)在PMN嗜天青颗粒中大量表达,用于杀灭微生物,研究发现其在PMN激活并与肠上皮细胞(IECs)结合后,被转运至PMN表面,随后与PMN-MPs一起释放。与可溶性蛋白相比,与PMN-MPs相关的MPO的酶活性增强,导致PMN-MPs与IECs结合后对伤口愈合产生强效抑制。重要的是,将PMN-MPs局部微量注射到受伤的结肠黏膜中足以在体内损害上皮伤口愈合。PMN-MP/MPO依赖的IEC伤口愈合抑制是由于IEC迁移和增殖受损,这是由肌动蛋白动力学受阻、细胞铺展和细胞周期停滞导致的。因此,我们的研究结果为PMN诱导的组织损伤机制提供了新的见解,并表明PMN-MPs和MPO是细胞功能的重要调节因子。

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本文引用的文献

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