期刊
MOLECULAR IMMUNOLOGY
卷 145, 期 -, 页码 43-49出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.molimm.2022.03.117
关键词
FHR-1; Alternative complement pathway; Immune inflammatory disorders
资金
- Strategic Support Force Medical Center, China [21ZX09]
FHR-1 plays an important role in innate immunity by promoting complement activation and inhibiting C5 convertase formation. However, it can have contradictory effects in different scenarios and is associated with various immune inflammatory disorders.
Human complement Factor H-related protein 1 (FHR-1) is one of complement Factor H-related proteins (FHRs) and plays an important role in innate immunity. In particular, FHR-1 promotes complement activation by competing with Factor H (FH) for ligands on different surfaces or directly binding to C3b and native C3. Paradoxically, FHR-1 restrains complement activation by inhibiting C5 convertase and terminal complement complex (TCC) formation, and in vitro assays showed that the physiological concentration of FHR-1 had no obvious C3 and C5 regulatory activity. FHR-1 also plays a role in the inflammatory process. MDA-bound FHR-1 promotes inflammatory cytokine release from monocytes in a complement-independent manner. However, its deficiency increases TNF alpha, IL18, IL6, and IL10 secretion from monocytes stimulated with LPS and R484. These contradictory effects of FHR-1 in innate immunity indicate that FHR-1 may function differently in different scenarios. Dysregulation of innate immunity due to frequent CFHR1 variations is associated with various immune inflammatory disorders. Mutations in the C-terminus of FHR-1 that increase its similarity with FH are associated with atypical haemolytic uraemia syndrome (aHUS). In contrast, mutations in the N-terminus that increase the multimerization of FHRs are associated with C3 glomerulopathy (C3G). Changes in FHR-1 concentration have been observed in other diseases. The different functions of the C-terminus and N-terminus of FHR-1 and the distinct function of FHR-1 under various conditions may explain the association of CFHR1 variations with different diseases. Here, we summarized the recent progress on FHR-1 and dissected its role in various immune inflammatory disorders, helping to comprehend and further explore the disease pathogenesis.
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