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B.1.1.7 and B.1.351 SARS-CoV-2 variants display enhanced Spike-mediated fusion
Maaran Michael Rajah,Maaran Michael Rajah,Mathieu Hubert,Elodie Bishop,Elodie Bishop,Nell Saunders,Rémy Robinot,Ludivine Grzelak,Ludivine Grzelak,Delphine Planas,Marija Zivaljic,Marija Zivaljic,Cyril Planchais,Florence Guivel-Benhassine,Françoise Porrot,Hugo Mouquet,Lisa A. Chakrabarti,Julian Buchrieser,Olivier Schwartz,Olivier Schwartz +19 more
TLDR
In this paper, the SARS-CoV-2 emerging variants display enhanced syncytia formation, and the spike protein of Alpha, Beta and Delta, in the absence of other viral proteins, induce more syncytsia than D614G, while antibody escape mutation E484K, K417N and Delta242-244 hamper it.Abstract:
Severe COVID-19 is characterized by lung abnormalities, including the presence of syncytial pneumocytes. Syncytia form when SARS-CoV-2 spike protein expressed on the surface of infected cells interacts with the ACE2 receptor on neighbouring cells. The syncytia forming potential of spike variant proteins remain poorly characterized. Here, we first assessed Alpha and Beta spread and fusion in cell cultures. Alpha and Beta replicated similarly to D614G reference strain in Vero, Caco-2, Calu-3 and primary airway cells. However, Alpha and Beta formed larger and more numerous syncytia. Alpha, Beta and D614G fusion was similarly inhibited by interferon induced transmembrane proteins (IFITMs). Individual mutations present in Alpha and Beta spikes differentially modified fusogenicity, binding to ACE2 and recognition by monoclonal antibodies. We further show that Delta spike also triggers faster fusion relative to D614G. Thus, SARS-CoV-2 emerging variants display enhanced syncytia formation. SynopsisThe Spike protein of the novel SARS-CoV-2 variants are comparative more fusogenic than the earlier strains. The mutations in the variant spike protein differential modulate syncytia formation, ACE2 binding, and antibody escape. O_LIThe spike protein of Alpha, Beta and Delta, in the absence of other viral proteins, induce more syncytia than D614G C_LIO_LIThe ACE2 affinity of the variant spike proteins correlates to their fusogenicity C_LIO_LIVariant associated mutations P681H, D1118H, and D215G augment cell-cell fusion, while antibody escape mutation E484K, K417N and {Delta}242-244 hamper it. C_LIO_LIVariant spike-mediated syncytia formation is effectively restricted by IFITMs C_LIread more
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Adverse effects of COVID-19 mRNA vaccines: the spike hypothesis
Ioannis P. Trougakos,Evangelos Terpos,Harry Alexopoulos,Marianna Politou,Dimitrios Paraskevis,Andreas Scorilas,Efstathios Kastritis,Evangelos Andreakos,Meletios A. Dimopoulos +8 more
TL;DR: O'Driscoll et al. as mentioned in this paper showed that COVID-19 mRNA vaccines induce robust immune responses against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), yet their cellular/molecular mode of action and the etiology of the induced adverse events (AEs) remain elusive.
Journal ArticleDOI
Replication kinetics and infectivity of SARS-CoV-2 variants of concern in common cell culture models
TL;DR: In this paper , a systematic comparison of all SARS-CoV-2 Variants of Concern (VOCs) with altered epidemiological, immunological, and pathogenic properties is presented.
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SARS-CoV-2 Omicron spike H655Y mutation is responsible for enhancement of the endosomal entry pathway and reduction of cell surface entry pathways
TL;DR: Protease inhibitors are used to block each viral entry pathway mediated by the three host proteases (cathepsin B/L, TMPRSS2, and metalloproteinases) in various cell types to suggest that Omicron has altered entry properties and fusogenicity, leading to modulations of tissue and cell tropism, and reduced pathogenicity.
Journal ArticleDOI
OMICRON: Virology, immunopathogenesis, and laboratory diagnosis
TL;DR: An overview of the biological and immunopathological properties of Omicron and its subvariants, its clinical signs and symptoms, Omicon and pediatrics, vaccines against OmicRON, re‐infection with Omicrons, diagnostic approaches and specific challenges of O micron in the successful control and management of the rapid global spread of this variant are provided.
Posted ContentDOI
SARS-CoV-2 spike N-terminal domain modulates TMPRSS2-dependent viral entry and fusogenicity
Bo Meng,Rawlings Datir,Jin W. Choi,John S. Bradley,Kenneth G. C. Smith,Joo-Hyeon Lee,Ravindra K. Gupta +6 more
TL;DR: It is concluded that the NTD allosterically modulates S1/S2 cleavage and spike-mediated functions such as entry and cell-cell fusion in a spike context dependent manner, and allosteric interactions may be lost when combining regions from more distantly related spike proteins.
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TL;DR: A SARS-CoV-2 variant carrying the Spike protein amino acid change D614G has become the most prevalent form in the global pandemic, and it is found that the G614 variant grows to higher titer as pseudotyped virions.
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