[The role of microbiota and flavonoids in maintaining the balance of helper and regulatory T-lymphocytes associated with the intestinal immune barrier].

Q2 Medicine Voprosy pitaniia Pub Date : 2024-01-01 Epub Date: 2024-01-19 DOI:10.33029/0042-8833-2024-93-1-22-32
S I Pavlova
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Abstract

The gastrointestinal tract is a barrier, represented by dynamic and mutually regulating components (microbial, chemical, physical and immune) for the selective penetration of luminal contents into the internal environment. From the point of view of immunologists, even in a physiological condition, the epithelium of the intestinal wall is in a state of mild inflammation, which is explained by the constant invasion of antigens (food, microbial) and, in turn, the constant readiness of the immune system to respond. The purpose of this review was to analyze information about the formation of microbial and immunological barriers, immunological tolerance to microbiota and the possible role of flavonoids in this. Material and methods. The literature search was carried out using PubMed, ResearchGate, Elibrary databases mainly for the last 10 years, using the following keywords: flavonoid, gut microbiome/microbiota, Th17, Treg, RORγt, immunity, segmented filamentous bacteria. Results. During the immune response, a significant role in maintaining the intestinal barrier function is assigned to helper T lymphocytes type 17 (Th17). The intestinal microbiome is a key element in the formation of the immune barrier. Th17 differentiation in the intestine is fully triggered by commensals (apparently, the main role belongs to segmented filamentous bacteria) after weaning and the start of complementary feeding. Pro-inflammatory Th17 effectors in the gut are controlled by anti-inflammatory regulatory T-cells (Treg). In recent years, it has been established that despite the opposing functions of regulatory cells and effector Th17 cells, their differentiation is similar and is characterized by the expression of the common transcription factor RORγt. The main part of the peripheral regulatory lymphocytes of the intestine is a population that stably expresses not only FOXP3, but also RORγt. Flavonoids, which are plant secondary metabolites of the polyphenolic structure, are able to inhibit intracellular kinases and, as a result, influence the activation and implementation of effector functions of immunocompetent cells. Some flavonoids promote RORγt expression and appear to be able to reprogram the effector phenotype of Th17 cells, reducing their pathogenicity. Conclusion. Understanding the interactions between the microbiota, immune cells, and factors involved in their regulation, which are critical for the maintenance of tolerance, may facilitate progress in the prevention and therapeutic approaches to treat immunoinflammatory and autoimmune diseases.

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[微生物群和类黄酮在维持与肠道免疫屏障相关的辅助性和调节性 T 淋巴细胞平衡中的作用]。
胃肠道是一道屏障,由动态和相互调节的成分(微生物、化学、物理和免疫)组成,用于选择性地将管腔内容物渗透到内部环境中。从免疫学家的角度来看,即使在生理状态下,肠壁上皮也处于轻度炎症状态,这是因为抗原(食物、微生物)不断入侵,反过来,免疫系统也随时准备做出反应。本综述旨在分析有关微生物和免疫屏障的形成、对微生物群的免疫耐受以及类黄酮在其中可能发挥的作用的信息。材料和方法使用 PubMed、ResearchGate 和 Elibrary 数据库对过去 10 年的文献进行了检索,关键词如下:类黄酮、肠道微生物/微生物群、Th17、Treg、RORγt、免疫、分段丝状菌。研究结果在免疫反应过程中,17 型辅助 T 淋巴细胞(Th17)在维持肠道屏障功能方面发挥着重要作用。肠道微生物群是形成免疫屏障的关键因素。在断奶和开始添加辅食后,肠道中的 Th17 分化完全由共生菌(显然,起主要作用的是分节丝状菌)触发。肠道中的促炎症 Th17 效应受抗炎性调节 T 细胞(Treg)的控制。近年来已证实,尽管调节细胞和 Th17 效应细胞的功能相反,但它们的分化过程相似,并以共同转录因子 RORγt 的表达为特征。肠道外周调节性淋巴细胞的主要部分是一个不仅稳定表达 FOXP3 而且稳定表达 RORγt 的群体。黄酮类化合物是多酚结构的植物次生代谢产物,能够抑制细胞内激酶,从而影响免疫细胞的激活和效应功能的发挥。一些黄酮类化合物能促进 RORγt 的表达,似乎能重新规划 Th17 细胞的效应表型,降低其致病性。结论了解微生物群、免疫细胞及其调控因子之间的相互作用对维持耐受性至关重要,这可能有助于在预防和治疗免疫炎症和自身免疫性疾病方面取得进展。
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Voprosy pitaniia
Voprosy pitaniia Medicine-Medicine (all)
CiteScore
2.00
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0.00%
发文量
46
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