Kolios George, Valatas Vassilis, Ward Stephen G
Department of Gastroenterology, Faculty of Medicine, University of Crete, Heraklion, Greece.
Immunology. 2004 Dec;113(4):427-37. doi: 10.1111/j.1365-2567.2004.01984.x.
In recent years, nitric oxide (NO), a gas previously considered to be a potentially toxic chemical, has been established as a diffusible universal messenger that mediates cell-cell communication throughout the body. Constitutive and inducible NO production regulate numerous essential functions of the gastrointestinal mucosa, such as maintenance of adequate perfusion, regulation of microvascular and epithelial permeability, and regulation of the immune response. Up-regulation of the production of NO via expression of inducible nitric oxide synthase (iNOS) represents part of a prompt intestinal antibacterial response; however, NO has also been associated with the initiation and maintenance of inflammation in human inflammatory bowel disease (IBD). Recent studies on animal models of experimental IBD have shown that constitutive and inducible NO production seems to be beneficial during acute colitis, but sustained up-regulation of NO is detrimental. This fact is also supported by studies on mice genetically deficient in various NOS isoforms. However, the mechanism by which NO proceeds from being an indispensable homeostatic regulator to a harmful destructor remains unknown. Furthermore, extrapolation of data from animal colitis models to human IBD is questionable. The purpose of this review is to update our knowledge about the role of this universal mediator and the enzymes that generate it in the pathogenesis of IBD.
近年来,一氧化氮(NO),一种曾被认为是潜在有毒化学物质的气体,已被确认为一种可扩散的通用信使,介导全身的细胞间通讯。组成型和诱导型NO的产生调节胃肠道黏膜的许多重要功能,如维持充足的灌注、调节微血管和上皮通透性以及调节免疫反应。通过诱导型一氧化氮合酶(iNOS)的表达上调NO的产生是肠道快速抗菌反应的一部分;然而,NO也与人类炎症性肠病(IBD)中炎症的起始和维持有关。最近对实验性IBD动物模型的研究表明,组成型和诱导型NO的产生在急性结肠炎期间似乎是有益的,但NO的持续上调是有害的。对各种NOS亚型基因缺陷小鼠的研究也支持了这一事实。然而,NO从不可或缺的稳态调节因子转变为有害破坏因子的机制仍然未知。此外,将动物结肠炎模型的数据外推至人类IBD是值得怀疑的。本综述的目的是更新我们对这种通用介质及其产生酶在IBD发病机制中作用的认识。