Author: Liu, Xiaohui; Wang, Yiâ€ling; Wu, Jacky; Qi, Jianjun; Zeng, Zihua; Wan, Quanyuan; Chen, Zhenghu; Manandhar, Pragya; Cavener, Victoria S.; Boyle, Nina R.; Fu, Xinping; Salazar, Eric; Kuchipudi, Suresh V.; Kapur, Vivek; Zhang, Xiaoliu; Umetani, Michihisa; Sen, Mehmet; Willson, Richard C.; Chen, Shuâ€hsia; Zu, Youli
Title: Neutralizing Aptamers Block S/RBDâ€ACE2 Interactions and Prevent Host Cell Infection Cord-id: igny2w5w Document date: 2021_3_22
ID: igny2w5w
Snippet: The receptorâ€binding domain (RBD) of the severe acute respiratory syndrome coronavirus 2 spike (S) protein plays a central role in mediating the first step of virus infection to cause disease: virus binding to angiotensinâ€converting enzyme 2 (ACE2) receptors on human host cells. Therefore, S/RBD is an ideal target for blocking and neutralization therapies to prevent and treat coronavirus disease 2019 (COVIDâ€19). Using a targetâ€based selection approach, we developed oligonucleotide aptame
Document: The receptorâ€binding domain (RBD) of the severe acute respiratory syndrome coronavirus 2 spike (S) protein plays a central role in mediating the first step of virus infection to cause disease: virus binding to angiotensinâ€converting enzyme 2 (ACE2) receptors on human host cells. Therefore, S/RBD is an ideal target for blocking and neutralization therapies to prevent and treat coronavirus disease 2019 (COVIDâ€19). Using a targetâ€based selection approach, we developed oligonucleotide aptamers containing a conserved sequence motif that specifically targets S/RBD. Synthetic aptamers had high binding affinity for S/RBDâ€coated virus mimics (K (D)≈7 nM) and also blocked interaction of S/RBD with ACE2 receptors (IC(50)≈5 nM). Importantly, aptamers were able to neutralize S proteinâ€expressing viral particles and prevent host cell infection, suggesting a promising COVIDâ€19 therapy strategy.
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