Postgraduate Program in Parasitic Biology in the Amazon (PPGBPA), University of Pará State (UEPA), Belém, Brazil.
Department of Biomedicine, Federal University of Ceará (UFC), Fortaleza, Brazil.
Front Immunol. 2024 Sep 6;15:1416177. doi: 10.3389/fimmu.2024.1416177. eCollection 2024.
Leprosy is a chronic infectious condition and the main cause of neuropathy that occurs brought on by . It is known that the biological characteristics of the human host, such as the immunological ones, have a higher influence on the pathology of this disease than the intrinsic mechanisms of the bacterium. The objective of this work was to review the scientific knowledge about the relationship between immunopathology and the severity of leprosy.
A systematic review following the PRISMA 2020 recommendations was conducted in the PUBMED, LILACS, SciELO and Science Direct databases using articles in English, Portuguese or Spanish between January 2011 and May 2022 with the descriptors "Leprosy/Immunology", "Cytokines" and "". A methodological quality assessment was carried out using the JBI checklists.
A total of 49 articles were included. There is a relationship of greater severity of infection associated with lower release of MHC molecules in response to PGL-1 that inhibit the promotion of resolving T lymphocytes arising from dendritic cells (DCs) stimulation. In addition, the differentiation of macrophage phenotypes dependent on the activation of PRRs can define activation and the distinct type of T helper (Th) cells involved according to severity. Activated CD8+ T cells also have distinct types at the appropriate poles of the disease, and B cells show at the most severe pole of the LL, specific induction of IgA and more Treg-type CD8+ T cells that further contribute to T cell anergy.
Therefore, the adaptive immune system aggravates nerve damage and defines the type of leprosy, while the innate immune system is considerably more significant in the onset of nerve damage, symptomatic of the initial presentation of illness and in several critical immune responses, including inflammation and elimination of dead .
麻风病是一种慢性传染病,主要由 引起的周围神经病变。已知人类宿主的生物学特征,如免疫特征,对这种疾病的病理学的影响比细菌的内在机制更高。这项工作的目的是综述免疫病理学与麻风病严重程度之间的关系的科学知识。
按照 PRISMA 2020 建议,在 PUBMED、LILACS、SciELO 和 Science Direct 数据库中进行了系统性综述,使用了 2011 年 1 月至 2022 年 5 月期间以英文、葡萄牙文或西班牙文发表的文章,主题词为“麻风病/免疫学”、“细胞因子”和“”。使用 JBI 清单进行了方法学质量评估。
共纳入 49 篇文章。在感染严重程度增加与 MHC 分子对 PGL-1 的反应降低有关,这会抑制来自树突状细胞(DC)刺激的促缓解 T 淋巴细胞的产生。此外,依赖于 PRR 激活的巨噬细胞表型的分化可以根据严重程度定义激活和不同类型的辅助性 T 细胞(Th)。激活的 CD8+T 细胞在疾病的适当极点也有不同的类型,B 细胞在 LL 的最严重极点显示出特异性诱导 IgA 和更多的 Treg 型 CD8+T 细胞,这进一步导致 T 细胞无能。
因此,适应性免疫系统加重神经损伤并定义麻风病的类型,而固有免疫系统在神经损伤的发生、疾病初始表现以及包括炎症和清除死 在内的几个关键免疫反应中更为重要。
