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Molecular Mechanism for Antibody-Dependent Enhancement of Coronavirus Entry

JVI. 2020-03; 
Yushun Wan, Jian Shang, Shihui Sun, Wanbo Tai, Jing Chen, Qibin Geng, Lei He, Yuehong Chen, Jianming Wu, Zhengli Shi, Yusen Zhou, Lanying Du, Fang Li
Products/Services Used Details Operation
Gene Synthesis The full-length genes of MERS-CoV spike (GenBank accession number AFS88936.1), SARS-CoV spike (GenBank accession number AFR58742), human DPP4 (GenBank accession number NM_001935.4), and human ACE2 (GenBank accession number NM_001371415.1) were synthesized (GenScript Biotech). Get A Quote

摘要

Antibody-dependent enhancement (ADE) of viral entry has been a major concern for epidemiology, vaccine development, and antibody-based drug therapy. However, the molecular mechanism behind ADE is still elusive. Coronavirus spike protein mediates viral entry into cells by first binding to a receptor on the host cell surface and then fusing viral and host membranes. In this study, we investigated how a neutralizing monoclonal antibody (MAb), which targets the receptor-binding domain (RBD) of Middle East respiratory syndrome (MERS) coronavirus spike, mediates viral entry using pseudovirus entry and biochemical assays. Our results showed that MAb binds to the virus surface spike, allowing it to undergo conformation... More

关键词

antibody-dependent enhancement of viral entry, MERS coronavirus, SARS coronavirus, spike protein, neutralizing antibody, viral receptor, IgG Fc receptor, antibody-dependent enhancement of viral entry