Mara Klöhn, Thomas Burkard, Juliana Janzen, Jil A Haase, André Gömer, Rebecca Fu, George Ssebyatika, Maximilian K Nocke, Richard J P Brown, Thomas Krey, Viet Loan Dao Thi, Volker Kinast, Yannick Brüggemann, Daniel Todt, Eike Steinmann
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Hence, we investigated the functional requirement and therapeutic potential of cellular protease during HEV infection.</p><p><strong>Approach and results: </strong>Using our established HEV cell culture model and subgenomic HEV replicons, we found that blocking lysosomal cathepsins (CTS) with small molecule inhibitors impedes HEV infection without affecting replication. Most importantly, the pan-cathepsin inhibitor K11777 suppressed HEV infections with an EC 50 of ~0.02 nM. Inhibition by K11777, devoid of notable toxicity in hepatoma cells, was also observed in HepaRG and primary human hepatocytes. Furthermore, through time-of-addition and RNAscope experiments, we confirmed that HEV entry is blocked by inhibition of cathepsins. Cathepsin L (CTSL) knockout cells were less permissive to HEV, suggesting that CTSL is critical for HEV infection. Finally, we observed cleavage of the glycosylated ORF2 protein and virus particles by recombinant CTSL.</p><p><strong>Conclusions: </strong>In summary, our study highlights the pivotal role of lysosomal cathepsins, especially CTSL, in the HEV entry process. 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引用次数: 0
摘要
背景和目的:据估计,戊型肝炎病毒(HEV)每年导致 7 万人死亡,但治疗方案仍然有限。在寻求有效抗病毒疗法的过程中,以病毒进入为靶点的疗法大有可为,而且已被证明对其他病毒有效。然而,HEV 进入过程中所需的确切机制和宿主因素仍不清楚。细胞蛋白酶已成为许多病毒激活病毒表面蛋白和有效进入细胞所需的宿主因子。因此,我们研究了 HEV 感染过程中细胞蛋白酶的功能要求和治疗潜力:利用我们建立的 HEV 细胞培养模型和亚基因组 HEV 复制子,我们发现用小分子抑制剂阻断溶酶体酪蛋白(CTS)可在不影响复制的情况下阻碍 HEV 感染。最重要的是,泛胰蛋白酶抑制剂 K11777 抑制 HEV 感染的 EC50 值约为 0.01 nM。在 HepaRG 和原代人类肝细胞中也观察到了 K11777 的抑制作用,它对肝癌细胞无明显毒性。此外,通过添加时间和 RNAscope 实验,我们证实抑制酪蛋白酶可阻断 HEV 的进入。螯合蛋白 L(CTSL)敲除细胞对 HEV 的容许度较低,这表明 CTSL 对 HEV 感染至关重要。最后,我们观察到重组 CTSL 对糖基化 ORF2 蛋白和病毒颗粒的裂解作用:总之,我们的研究强调了溶酶体酪蛋白,尤其是 CTSL 在 HEV 进入过程中的关键作用。泛胰蛋白酶抑制剂 K11777 的抗 HEV 疗效显著,尤其是它在原代细胞中的安全性,进一步凸显了它作为候选治疗药物的潜力。
Targeting cellular cathepsins inhibits hepatitis E virus entry.
Background and aims: HEV is estimated to be responsible for 70,000 deaths annually, yet therapy options remain limited. In the pursuit of effective antiviral therapies, targeting viral entry holds promise and has proven effective for other viruses. However, the precise mechanisms and host factors required during HEV entry remain unclear. Cellular proteases have emerged as host factors required for viral surface protein activation and productive cell entry by many viruses. Hence, we investigated the functional requirement and therapeutic potential of cellular protease during HEV infection.
Approach and results: Using our established HEV cell culture model and subgenomic HEV replicons, we found that blocking lysosomal cathepsins (CTS) with small molecule inhibitors impedes HEV infection without affecting replication. Most importantly, the pan-cathepsin inhibitor K11777 suppressed HEV infections with an EC 50 of ~0.02 nM. Inhibition by K11777, devoid of notable toxicity in hepatoma cells, was also observed in HepaRG and primary human hepatocytes. Furthermore, through time-of-addition and RNAscope experiments, we confirmed that HEV entry is blocked by inhibition of cathepsins. Cathepsin L (CTSL) knockout cells were less permissive to HEV, suggesting that CTSL is critical for HEV infection. Finally, we observed cleavage of the glycosylated ORF2 protein and virus particles by recombinant CTSL.
Conclusions: In summary, our study highlights the pivotal role of lysosomal cathepsins, especially CTSL, in the HEV entry process. The profound anti-HEV efficacy of the pan-cathepsin inhibitor K11777, especially with its notable safety profile in primary cells, further underscores its potential as a therapeutic candidate.
期刊介绍:
HEPATOLOGY is recognized as the leading publication in the field of liver disease. It features original, peer-reviewed articles covering various aspects of liver structure, function, and disease. The journal's distinguished Editorial Board carefully selects the best articles each month, focusing on topics including immunology, chronic hepatitis, viral hepatitis, cirrhosis, genetic and metabolic liver diseases, liver cancer, and drug metabolism.