Complement factor D targeting protects endotheliopathy in organoid and monkey models of COVID-19.

Eri Kawakami, Norikazu Saiki, Yosuke Yoneyama, Chiharu Moriya, Mari Maezawa, Shuntaro Kawamura, Akiko Kinebuchi, Tamaki Kono, Masaaki Funata, Ayaka Sakoda, Shigeru Kondo, Takeshi Ebihara, Hisatake Matsumoto, Yuki Togami, Hiroshi Ogura, Fuminori Sugihara, Daisuke Okuzaki, Takashi Kojima, Sayaka Deguchi, Sebastien Vallee, Susan McQuade, Rizwana Islam, Madhusudan Natarajan, Hirohito Ishigaki, Misako Nakayama, Cong Thanh Nguyen, Yoshinori Kitagawa, Yunheng Wu, Kensaku Mori, Takayuki Hishiki, Tomohiko Takasaki, Yasushi Itoh, Kazuo Takayama, Yasunori Nio, Takanori Takebe
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Abstract

COVID-19 is linked to endotheliopathy and coagulopathy, which can result in multi-organ failure. The mechanisms causing endothelial damage due to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) remain elusive. Here, we developed an infection-competent human vascular organoid from pluripotent stem cells for modeling endotheliopathy. Longitudinal serum proteome analysis identified aberrant complement signature in critically ill patients driven by the amplification cycle regulated by complement factor B and D (CFD). This deviant complement pattern initiates endothelial damage, neutrophil activation, and thrombosis specific to organoid-derived human blood vessels, as verified through intravital imaging. We examined a new long-acting, pH-sensitive (acid-switched) antibody targeting CFD. In both human and macaque COVID-19 models, this long-acting anti-CFD monoclonal antibody mitigated abnormal complement activation, protected endothelial cells, and curtailed the innate immune response post-viral exposure. Collectively, our findings suggest that the complement alternative pathway exacerbates endothelial injury and inflammation. This underscores the potential of CFD-targeted therapeutics against severe viral-induced inflammathrombotic outcomes.

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补体因子D靶向保护新冠肺炎类器官和猴子模型中的内皮病变。
新冠肺炎与内皮病变和凝血障碍有关,这可能导致多器官衰竭。严重急性呼吸综合征冠状病毒2型(SARS-CoV-2)导致内皮损伤的机制仍然难以捉摸。在这里,我们从多能干细胞中开发了一种具有感染能力的人类血管类器官,用于模拟内皮病变。纵向血清蛋白质组分析确定了危重患者中由补体因子B和D(CFD)调节的扩增周期驱动的异常补体特征。这种异常的补体模式引发内皮损伤、中性粒细胞活化和类器官衍生的人类血管特有的血栓形成,这一点已通过活体内成像得到证实。我们检测了一种针对CFD的新型长效、pH敏感(酸转换)抗体。在人类和猕猴新冠肺炎模型中,这种长效抗-CFD单克隆抗体减轻了补体的异常激活,保护了内皮细胞,并减少了病毒暴露后的先天免疫反应。总之,我们的研究结果表明,补体替代途径会加剧内皮损伤和炎症。这突出了CFD靶向治疗对严重病毒诱导的炎症血栓形成结果的潜力。
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Patient iPSC models reveal glia-intrinsic phenotypes in multiple sclerosis. Hallmarks of regeneration. Integrated single-cell analysis defines the epigenetic basis of castration-resistant prostate luminal cells. Activation of fetal-like molecular programs during regeneration in the intestine and beyond. Cultivating awareness of donation in cutting-edge allogenic cell therapies.
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