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Phenotypic and genetic characterization of MERS coronaviruses from Africa to understand their zoonotic potential

Title:	Phenotypic and genetic characterization of MERS coronaviruses from Africa to understand their zoonotic potential
Authors:	Zhou, Z; Hui, KPY; So, RTY; Lv, H; Perera, RAPM; Chu, DKW; Gelaye, E; Oyas, H; Njagi, O; Abayneh, T; Kuria, W; Walelign, E; Wanglia, R; El Masry, I; Von Dobschuetz, S; Kalpravidh, W; Chevalier, V; Miguel, E; Fassi-Fihri, O; Trarore, A; Liang, W; Wang, Y; Nicholls, JM; Zhao, J; Chan, MCW; Poon, LML; Mok, CKP; Peiris, M
Publisher Information:	//www.pnas.org; United States
Publication Year:	2021
Collection:	University of Hong Kong: HKU Scholars Hub
Subject Terms:	MERS-CoV; coronaviruses; Africa; phenotype; characterization
Description:	Coronaviruses are pathogens of pandemic potential. Middle East respiratory syndrome coronavirus (MERS-CoV) causes a zoonotic respiratory disease of global public health concern, and dromedary camels are the only proven source of zoonotic infection. More than 70% of MERS-CoV–infected dromedaries are found in East, North, and West Africa, but zoonotic MERS disease is only reported from the Arabian Peninsula. We compared viral replication competence of clade A and B viruses from the Arabian Peninsula with genetically diverse clade C viruses found in East (Egypt, Kenya, and Ethiopia), North (Morocco), and West (Nigeria and Burkina Faso) Africa. Viruses from Africa had lower replication competence in ex vivo cultures of the human lung and in lungs of experimentally infected human-DPP4 (hDPP4) knockin mice. We used lentivirus pseudotypes expressing MERS-CoV spike from Saudi Arabian clade A prototype strain (EMC) or African clade C1.1 viruses and demonstrated that clade C1.1 spike was associated with reduced virus entry into the respiratory epithelial cell line Calu-3. Isogenic EMC viruses with spike protein from EMC or clade C1.1 generated by reverse genetics showed that the clade C1.1 spike was associated with reduced virus replication competence in Calu-3 cells in vitro, in ex vivo human bronchus, and in lungs of hDPP4 knockin mice in vivo. These findings may explain why zoonotic MERS disease has not been reported from Africa so far, despite exposure to and infection with MERS-CoV. ; published_or_final_version
Document Type:	article in journal/newspaper
Language:	English
Relation:	Proceedings of the National Academy of Sciences; Proceedings of the National Academy of Sciences, 2021, v. 118 n. 25, p. article no. e2103984118; article no. e2103984118; 327448; WOS:000672563300021; 25; PMC8237650; https://hub.hku.hk/handle/10722/306101; 118
DOI:	10.1073/pnas.2103984118
Availability:	https://hub.hku.hk/handle/10722/306101; https://doi.org/10.1073/pnas.2103984118
Rights:	Proceedings of the National Academy of Sciences. Copyright © National Academy of Sciences. ; This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Accession Number:	edsbas.5BD8BAB8
Database:	BASE