Interferon regulatory factor 5 in Rheumatoid arthritis and systemic lupus erythematosus

Journal of rheumatology research Pub Date : 2021-03-01 DOI:10.22631/rr.2021.69997.1110

Hamidreza Ebrahimiyan, Z. Bagheri-Hosseinabadi, M. Abbasifard

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Abstract

The interferon regulatory factor (IRF) family consists of nine members: IRF1, IRF2, IRF3, IRF4, IRF5, IRF6, IRF7, IRF8, and IRF9 [1]. In the 1980s, these proteins were described as transcriptional regulators of type I interferons (IFNs), including Ifnb and Ifna genes. The function of IRF and the production of IFNβ and IFNα form the first line of defense against viral infection. Type I IFN promotes degradation of viral DNA/RNA, inhibits viral replication and particle assembly, and enhances apoptosis in infected cells. It also enhances the differentiation of dendritic cells (DCs) and polarization of TH1 to enhance the antiviral immune response [2, 3]. The importance of these proteins is highlighted by the existence of viral-encoded IRF homologous of the host IRF, but with no function to circumvent the immune response [4-7]. The IRF protein binds to DNA by conserved N-terminal DNA binding domain, which is known as the interferon-stimulated response element (ISRE) [8]. The IRF also binds other transcription factors to enhance gene expression during the immune response. The Ifnb enhancer includes regulatory elements designated as positive regulatory domains (PRD). The transcription proteins consist of four positive regulatory domains: 1 NFkB dimer (RelA/p50), 1 AP1 complex (ATF2/c-Jun), and 2 heterodimers or homodimers of IRF, and assemble at the Ifnb promoter and promotes gene expression [9-14]. Some immune cells such as plasmacytoid dendritic cells are specialized to produce a large amount of IFNα. In this study, both IRF5 and IRF7 were expressed constitutively and played important roles in IFNα production [15]. In addition to antiviral immune response, IRF proteins could also play crucial roles in transcription regulations and the regulation of other immune responses. More importantly, IRF5 could be produced in different cell types such as macrophages, B cells, and DCs and has been associated with susceptibility to different autoimmune diseases [16]. Review Article Open Access

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干扰素调节因子5在类风湿关节炎和系统性红斑狼疮中的作用

干扰素调节因子(IRF)家族包括9个成员:IRF1、IRF2、IRF3、IRF4、IRF5、IRF6、IRF7、IRF8和IRF9[1]。在20世纪80年代，这些蛋白被描述为I型干扰素(ifn)的转录调节因子，包括Ifnb和Ifna基因。IRF的功能和IFNβ和IFNα的产生构成了抵抗病毒感染的第一道防线。I型IFN促进病毒DNA/RNA的降解，抑制病毒复制和颗粒组装，并促进感染细胞的凋亡。它还可以增强树突状细胞(dc)的分化和TH1的极化，从而增强抗病毒免疫反应[2,3]。存在与宿主IRF同源的病毒编码IRF，但没有规避免疫应答的功能，凸显了这些蛋白的重要性[4-7]。IRF蛋白通过保守的n端DNA结合域与DNA结合，被称为干扰素刺激反应元件(interferon-stimulated response element, ISRE)[8]。IRF还结合其他转录因子，在免疫应答过程中增强基因表达。Ifnb增强子包括被指定为正调控域(PRD)的调控元件。转录蛋白由4个正调控结构域组成:1个NFkB二聚体(RelA/p50)、1个AP1复合物(ATF2/c-Jun)和2个IRF异源二聚体或同源二聚体，聚集在Ifnb启动子处，促进基因表达[9-14]。一些免疫细胞，如浆细胞样树突状细胞，专门产生大量的IFNα。在本研究中，IRF5和IRF7均组成性表达，并在IFNα的产生中发挥重要作用[15]。除了抗病毒免疫应答外，IRF蛋白还可能在转录调控和其他免疫应答的调控中发挥重要作用。更重要的是，IRF5可以在不同的细胞类型中产生，如巨噬细胞、B细胞和dc细胞，并与不同自身免疫性疾病的易感性相关[16]。开放获取

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Journal of rheumatology research

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