Department of Nephrology, Radboud Institute for Molecular Life Sciences, Radboud University Medical Center, Nijmegen, Netherlands.
Biochemical Technical Support Aspen Oss, Oss, Netherlands.
Front Immunol. 2021 Aug 18;12:676662. doi: 10.3389/fimmu.2021.676662. eCollection 2021.
Complement dysregulation is characteristic of the renal diseases atypical hemolytic uremic syndrome (aHUS) and complement component 3 glomerulopathy (C3G). Complement regulatory protein Factor H (FH) inhibits complement activity, whereas FH-related proteins (FHRs) lack a complement regulatory domain. FH and FHRs compete for binding to host cell glycans, in particular heparan sulfates (HS). HS is a glycosaminoglycan with an immense structural variability, where distinct sulfation patterns mediate specific binding of proteins. Mutations in FH, FHRs, or an altered glomerular HS structure may disturb the FH : FHRs balance on glomerular endothelial cells, thereby leading to complement activation and the subsequent development of aHUS/C3G. In this study, we aimed to identify specific HS structures that could specifically compete off FHRs from HS glycocalyx (HS), without interfering with FH binding. FH/FHR binding to human conditionally immortalized glomerular endothelial cells (ciGEnCs) and HS purified from ciGEnC glycocalyx was assessed. HS modifications important for FH/FHR binding to HS were analyzed using selectively desulfated heparins in competition with purified HS. We further assessed effects of heparinoids on FHR1- and FHR5-mediated C3b deposition on ciGEnCs. In the presence of C3b, binding of FH, FHR1 and FHR5 to ciGEnCs was significantly increased, whereas binding of FHR2 was minimal. FHR1 and 5 competitively inhibited FH binding to HS, leading to alternative pathway dysregulation. FHR1 and FHR5 binding was primarily mediated by N-sulfation while FH binding depended on N-, 2-O- and 6-O-sulfation. Addition of 2-O-desulfated heparin significantly reduced FHR1- and FHR5-mediated C3b deposition on ciGEnCs. We identify 2-O-desulfated heparin derivatives as potential therapeutics for C3G and other diseases with dysregulated complement.
补体失调是肾脏疾病非典型溶血尿毒症综合征 (aHUS) 和补体成分 3 肾小球病 (C3G) 的特征。补体调节蛋白因子 H (FH) 抑制补体活性,而 FH 相关蛋白 (FHR) 缺乏补体调节结构域。FH 和 FHR 竞争与宿主细胞糖链结合,特别是肝素硫酸盐 (HS)。HS 是一种具有巨大结构变异性的糖胺聚糖,其中不同的硫酸化模式介导蛋白质的特异性结合。FH、FHR 或肾小球 HS 结构的改变可能会破坏 FH:FHR 在肾小球内皮细胞上的平衡,从而导致补体激活和随后的 aHUS/C3G 发展。在这项研究中,我们旨在确定特定的 HS 结构,这些结构可以特异性地从 HS 糖萼 (HS) 中竞争 FHR,而不会干扰 FH 结合。评估了 FH/FHR 与人条件永生化肾小球内皮细胞 (ciGEnC) 和从 ciGEnC 糖萼中纯化的 HS 之间的结合。使用选择性去硫酸肝素分析对 FH/FHR 与 HS 结合重要的 HS 修饰,并用纯化的 HS 进行竞争。我们进一步评估了肝素类似物对 FHR1 和 FHR5 介导的 ciGEnC 上 C3b 沉积的影响。在 C3b 存在的情况下,FH、FHR1 和 FHR5 与 ciGEnC 的结合显著增加,而 FHR2 的结合最小。FHR1 和 FHR5 竞争性抑制 FH 与 HS 的结合,导致旁路途径失调。FHR1 和 FHR5 的结合主要由 N-硫酸化介导,而 FH 的结合取决于 N-、2-O-和 6-O-硫酸化。添加 2-O-去硫酸肝素可显著减少 FHR1 和 FHR5 介导的 ciGEnC 上 C3b 的沉积。我们确定 2-O-去硫酸肝素衍生物是 C3G 和其他补体失调疾病的潜在治疗药物。
