类风湿关节炎发病机制中的微生物失衡和肠道渗透性:以细菌转运、瓜氨酸化和益生菌干预为重点的机制综述。

IF 6.8 4区 医学 Q1 NUTRITION & DIETETICS Journal of the American Nutrition Association Pub Date : 2024-01-01 Epub Date: 2023-06-09 DOI:10.1080/27697061.2023.2211129
Holly C Blenkinsopp, Karin Seidler, Michelle Barrow
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引用次数: 2

摘要

本综述旨在研究肠道渗透性(IP)在类风湿性关节炎(RA)中的作用,其假设是肠道微生物的渗漏可影响肽的瓜氨酸化增加,导致抗瓜氨酸蛋白抗体(ACPA)的产生和RA的炎症;渗漏的微生物可迁移到外周关节,导致外周关节的免疫反应和滑膜炎。本综述探讨了微生物菌群失调与RA炎症状态中IP增加之间联系的证据,以及瓜氨酸化增加和细菌迁移在RA微生物群与免疫反应之间联系中的作用。此外,本研究还旨在评估益生菌通过支持微生物平衡和抑制 RA 炎症因子等拟议机制对 RA 症状和发病机制的潜在影响。系统性文献检索分三个阶段进行(综述、机制、干预)。71篇经同行评议的论文符合纳入标准,并在叙述性分析中进行了总结。对主要研究进行了严格的评估和综合,并评估了其与临床实践的相关性。本机制综述中发现的证据一致支持肠道菌群失调和关节炎中 IP 的增加。RA患者的肠道微生物组发生了改变,柯林斯菌和埃格氏菌等特定微生物与IP增加、粘膜炎症和免疫反应相关。高瓜氨酸化和 ACPA 的产生与关节炎症状相关,肠道微生物被证明会影响高瓜氨酸化。一些体外和动物研究表明,微生物渗漏与细菌转运之间存在联系,但还需要进一步研究来阐明 IP 与瓜氨酸化之间的联系。益生菌干预研究证明,IL-6 和 TNFα 这两种炎症标志物的减少与滑膜组织的增生和 RA 关节炎的疼痛感有关。尽管文献中存在一些冲突,但益生菌在抑制疾病活动和炎症标志物方面可能是一种很有前景的营养干预方法。肠道渗透性增加和 PAD 酶的渗漏促进了多肽的瓜氨酸化,高瓜氨酸化和 ACPA 的产生与关节炎症状相关。
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Microbial Imbalance and Intestinal Permeability in the Pathogenesis of Rheumatoid Arthritis: A Mechanism Review with a Focus on Bacterial Translocation, Citrullination, and Probiotic Intervention.

This review aims to investigate the role of intestinal permeability (IP) in rheumatoid arthritis (RA), following the hypotheses that leakage of intestinal microbes can influence increased citrullination of peptides leading to anti-citrullinated protein antibody (ACPA) production and inflammation in RA; and that leaked microbes can migrate to the peripheral joints, leading to immune responses and synovitis in peripheral joints. This review explored the evidence for the link between microbial dysbiosis and increased IP in the inflammatory state in RA, as well as the role of increased citrullination and bacterial translocation in the link between microbiota and immune responses in RA. Furthermore, this research aims to evaluate the potential effect of probiotics on RA symptoms and pathogenesis via proposed mechanisms, including the support of microbial balance and suppression of inflammatory factors in RA. A systematic literature search was conducted in three tranches (review, mechanism, intervention). 71 peer-reviewed papers met the inclusions criteria and are summarized in a narrative analysis. Primary studies were critically appraised, synthesized and their relevance to clinical practice evaluated. Evidence found in this mechanism review consistently supported intestinal dysbiosis and increased IP in arthritis. An altered intestinal microbiome was demonstrated in RA with specific microbes such as Collinsella and Eggerthella correlating with increased IP, mucosal inflammation, and immune responses. Hypercitrullination and ACPA production correlated with arthritic symptoms and intestinal microbes were shown to influence hypercitrullination. Some in vitro and animal studies demonstrated a link between leakage of microbes and bacterial translocation, but further research is needed to elucidate the link between IP and citrullination. Probiotic intervention studies evidenced reductions in inflammatory markers IL-6 and TNFα, associated with proliferation of synovial tissue and pain perception in RA joint inflammation. Despite some conflict in the literature, probiotics may present a promising nutritional intervention in the suppression of both, disease activity and inflammatory markers.Key teaching pointsThere is evidence for a dysbiotic profile of the RA gut with specific RA-associated microbes.Increased intestinal permeability and leakage of PAD enzyme facilitates citrullination of peptides.Hypercitrullination and ACPA production correlate to arthritic signs.Microbial leakage and translocation plays a role in the pathogenesis of RA.Probiotics (e.g. L. Casei 01) may reduce inflammation and ameliorate RA symptoms.

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