Database of articles cited by EMDB/PDB/SASBDB data

Keywords
Structure methods	All X-ray diffraction NMR electron microscopy small angle scattering neutron diffraction fiber diffraction powder diffraction infrared spectroscopy EPR fluorescence transfer theoretical model Hybrid
Author
Journal
IF	>30 >20 >10 >5 all

Title	Broad sarbecovirus neutralization by a human monoclonal antibody.
Journal, issue, pages	Nature, Vol. 597, Issue 7874, Page 103-108, Year 2021
Publish date	Jul 19, 2021
Authors	M Alejandra Tortorici / Nadine Czudnochowski / Tyler N Starr / Roberta Marzi / Alexandra C Walls / Fabrizia Zatta / John E Bowen / Stefano Jaconi / Julia Di Iulio / Zhaoqian Wang / Anna De Marco / Samantha K Zepeda / Dora Pinto / Zhuoming Liu / Martina Beltramello / Istvan Bartha / Michael P Housley / Florian A Lempp / Laura E Rosen / Exequiel Dellota / Hannah Kaiser / Martin Montiel-Ruiz / Jiayi Zhou / Amin Addetia / Barbara Guarino / Katja Culap / Nicole Sprugasci / Christian Saliba / Eneida Vetti / Isabella Giacchetto-Sasselli / Chiara Silacci Fregni / Rana Abdelnabi / Shi-Yan Caroline Foo / Colin Havenar-Daughton / Michael A Schmid / Fabio Benigni / Elisabetta Cameroni / Johan Neyts / Amalio Telenti / Herbert W Virgin / Sean P J Whelan / Gyorgy Snell / Jesse D Bloom / Davide Corti / David Veesler / Matteo Samuele Pizzuto /
PubMed Abstract	The recent emergence of SARS-CoV-2 variants of concern and the recurrent spillovers of coronaviruses into the human population highlight the need for broadly neutralizing antibodies that are not ...The recent emergence of SARS-CoV-2 variants of concern and the recurrent spillovers of coronaviruses into the human population highlight the need for broadly neutralizing antibodies that are not affected by the ongoing antigenic drift and that can prevent or treat future zoonotic infections. Here we describe a human monoclonal antibody designated S2X259, which recognizes a highly conserved cryptic epitope of the receptor-binding domain and cross-reacts with spikes from all clades of sarbecovirus. S2X259 broadly neutralizes spike-mediated cell entry of SARS-CoV-2, including variants of concern (B.1.1.7, B.1.351, P.1, and B.1.427/B.1.429), as well as a wide spectrum of human and potentially zoonotic sarbecoviruses through inhibition of angiotensin-converting enzyme 2 (ACE2) binding to the receptor-binding domain. Furthermore, deep-mutational scanning and in vitro escape selection experiments demonstrate that S2X259 possesses an escape profile that is limited to a single substitution, G504D. We show that prophylactic and therapeutic administration of S2X259 protects Syrian hamsters (Mesocricetus auratus) against challenge with the prototypic SARS-CoV-2 and the B.1.351 variant of concern, which suggests that this monoclonal antibody is a promising candidate for the prevention and treatment of emergent variants and zoonotic infections. Our data reveal a key antigenic site that is targeted by broadly neutralizing antibodies and will guide the design of vaccines that are effective against all sarbecoviruses.
External links	Nature / PubMed:34280951 / PubMed Central
Methods	EM (single particle)
Resolution	3.1 Å
Structure data	24347 7ra8 EMDB-24347, PDB-7ra8: SARS-CoV-2 S glycoprotein in complex with S2X259 Fab Method: EM (single particle) / Resolution: 3.1 Å 24365 7ral EMDB-24365, PDB-7ral: SARS-CoV-2 S bound to S2X259 Fab (local refinement of the RBD/S2X259 variable domains) Method: EM (single particle)
Chemicals	ChemComp-NAG: 2-acetamido-2-deoxy-beta-D-glucopyranose / N-Acetylglucosamine
Source	severe acute respiratory syndrome coronavirus 2 homo sapiens (human)
Keywords	VIRAL PROTEIN/IMMUNE SYSTEM / SARS-CoV-2 / Spike glycoprotein / Fab S2X259 / VIRAL PROTEIN / Structural Genomics / Seattle Structural Genomics Center for Infectious Disease / SSGCID / VIRAL PROTEIN-IMMUNE SYSTEM complex