Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Peking University, Key Laboratory of Molecular Cardiovascular Science, Ministry of Education, Beijing, China.
Beijing Institute of Biotechnology, Beijing, China.
J Am Soc Nephrol. 2023 Feb 1;34(2):291-308. doi: 10.1681/ASN.0000000000000004. Epub 2023 Jan 17.
The dysfunction of complement factor H (CFH), the main soluble complement negative regulator, potentiates various complement-induced renal injuries. However, insights into the underlying mechanism of CFH dysfunction remain limited. In this study, we investigated whether extracellular protease-mediated degradation accounts for CFH dysfunction in complement-mediated renal injuries.
An unbiased interactome of lupus mice kidneys identified CFH-binding protease. In vitro cleavage assay clarified CFH degradation. Pristane-induced SLE or renal ischemia-reperfusion (I/R) injury models were used in wild-type and ADAMTS7-/- mice.
We identified the metalloprotease ADAMTS7 as a CFH-binding protein in lupus kidneys. Moreover, the upregulation of ADAMTS7 correlated with CFH reduction in both lupus mice and patients. Mechanistically, ADAMTS7 is directly bound to CFH complement control protein (CCP) 1-4 domain and degraded CCP 1-7 domain through multiple cleavages. In mice with lupus nephritis or renal I/R injury, ADAMTS7 deficiency alleviated complement activation and related renal pathologies, but without affecting complement-mediated bactericidal activity. Adeno-associated virus-mediated CFH silencing compromised these protective effects of ADAMTS7 knockout against complement-mediated renal injuries in vivo.
ADAMTS7-mediated CFH degradation potentiates complement activation and related renal injuries. ADAMTS7 would be a promising anticomplement therapeutic target that does not increase bacterial infection risk.
补体因子 H(CFH)作为主要的可溶性补体负调节剂,其功能障碍会加剧各种补体诱导的肾脏损伤。然而,CFH 功能障碍的潜在机制仍知之甚少。在本研究中,我们研究了细胞外蛋白酶介导的降解是否是补体介导的肾脏损伤中 CFH 功能障碍的原因。
通过对狼疮小鼠肾脏的无偏互作组学研究,鉴定出与 CFH 结合的蛋白酶。体外切割实验阐明了 CFH 的降解过程。在野生型和 ADAMTS7-/- 小鼠中使用了苍耳烷诱导的系统性红斑狼疮或肾缺血再灌注(I/R)损伤模型。
我们发现金属蛋白酶 ADAMTS7 是狼疮小鼠肾脏中与 CFH 结合的蛋白。此外,ADAMTS7 的上调与狼疮小鼠和患者 CFH 减少相关。在狼疮肾炎或肾 I/R 损伤的小鼠中,ADAMTS7 缺乏减轻了补体激活和相关的肾脏病理,但不影响补体介导的杀菌活性。腺相关病毒介导的 CFH 沉默削弱了 ADAMTS7 敲除对体内补体介导的肾脏损伤的这些保护作用。
ADAMTS7 介导的 CFH 降解会加剧补体激活和相关的肾脏损伤。ADAMTS7 可能是一种很有前途的抗补体治疗靶点,不会增加细菌感染的风险。
