Department of Microbiology and Immunology, University of Louisville School of Dentistry, Loueisville, KY 40292, USA.
Biochem Pharmacol. 2010 Dec 15;80(12):1992-2001. doi: 10.1016/j.bcp.2010.06.017. Epub 2010 Jun 23.
Although the complement system is centrally involved in host defense, its overactivation or deregulation (e.g., due to inherent host genetic defects or due to pathogen subversion) may excessively amplify inflammation and contribute to immunopathology. Periodontitis is an oral infection-driven chronic inflammatory disease which exerts a systemic impact on health. This paper reviews evidence linking complement to periodontal inflammation and pathogenesis. Clinical and histological observations show a correlation between periodontal inflammatory activity and local complement activation. Certain genetic polymorphisms or deficiencies in specific complement components appear to predispose to increased susceptibility to periodontitis. Animal model studies and in vitro experiments indicate that periodontal bacteria can either inhibit or activate distinct components of the complement cascade. Porphyromonas gingivalis, a keystone species in periodontitis, subverts complement receptor 3 and C5a anaphylatoxin receptor signaling in ways that promote its adaptive fitness in the presence of non-productive inflammation. Overall, available evidence suggests that complement activation or subversion contributes to periodontal pathogenesis, although not all complement pathways or functions are necessarily destructive. Effective complement-targeted therapeutic intervention in periodontitis would require determining the precise roles of the various inductive or effector complement pathways. This information is essential as it may reveal which specific pathways need to be blocked to counteract microbial evasion and inflammatory pathology or, conversely, kept intact to promote host immunity.
虽然补体系统是宿主防御的核心部分,但它的过度激活或失调(例如,由于固有宿主遗传缺陷或病原体的颠覆)可能会过度放大炎症反应,并导致免疫病理学。牙周炎是一种口腔感染驱动的慢性炎症性疾病,对健康有全身性影响。本文综述了补体与牙周炎炎症和发病机制的关系。临床和组织学观察表明,牙周炎的炎症活动与局部补体激活之间存在相关性。某些遗传多态性或特定补体成分的缺乏似乎使个体更容易患牙周炎。动物模型研究和体外实验表明,牙周细菌可以抑制或激活补体级联反应的不同成分。牙龈卟啉单胞菌是牙周炎的关键物种,它通过抑制补体受体 3 和 C5a 过敏毒素受体信号通路,促进其在非生产性炎症存在的情况下适应性生存。总的来说,现有证据表明补体的激活或失活有助于牙周病的发病机制,尽管并非所有补体途径或功能都一定具有破坏性。在牙周炎中进行有效的补体靶向治疗干预需要确定各种诱导或效应补体途径的确切作用。这些信息是必不可少的,因为它可能揭示需要阻断哪些特定途径来对抗微生物逃避和炎症病理,或者相反,需要保持完整以促进宿主免疫。