Steven A Kemp scite author profile

Summary SARS-CoV-2 Spike protein is critical for virus infection via engagement of ACE2 1 , and is a major antibody target. Here we report chronic SARS-CoV-2 with reduced sensitivity to neutralising antibodies in an immune suppressed individual treated with convalescent plasma, generating whole genome ultradeep sequences over 23 time points spanning 101 days. Little change was observed in the overall viral population structure following two courses of remdesivir over the first 57 days. However, following convalescent plasma therapy we observed large, dynamic virus population shifts, with the emergence of a dominant viral strain bearing D796H in S2 and ΔH69/ΔV70 in the S1 N-terminal domain NTD of the Spike protein. As passively transferred serum antibodies diminished, viruses with the escape genotype diminished in frequency, before returning during a final, unsuccessful course of convalescent plasma. In vitro , the Spike escape double mutant bearing ΔH69/ΔV70 and D796H conferred modestly decreased sensitivity to convalescent plasma, whilst maintaining infectivity similar to wild type. D796H appeared to be the main contributor to decreased susceptibility but incurred an infectivity defect. The ΔH69/ΔV70 single mutant had two-fold higher infectivity compared to wild type, possibly compensating for the reduced infectivity of D796H. These data reveal strong selection on SARS-CoV-2 during convalescent plasma therapy associated with emergence of viral variants with evidence of reduced susceptibility to neutralising antibodies.

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Sensitivity of SARS-CoV-2 B.1.1.7 to mRNA vaccine-elicited antibodies

Collier

Marco

Ferreira

et al. 2021

Nature

688

679

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Recurrent emergence of SARS-CoV-2 spike deletion H69/V70 and its role in the Alpha variant B.1.1.7

et al. 2021

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We report SARS-CoV-2 spike ΔH69/V70 in multiple independent lineages, often occurring after acquisition of the receptor binding motif replacements such as N439K and Y453F known to increase binding affinity to the ACE2 receptor and confer antibody escape. In vitro , we show that whilst ΔH69/V70 itself is not an antibody evasion mechanism, it increases infectivity associated with enhanced incorporation of cleaved spike into virions. ΔH69/V70 is able to partially rescue infectivity of S proteins that have acquired N439K and Y453F escape mutations by increased spike incorporation. In addition, replacement of H69 and V70 residues in B.1.1.7 spike (where ΔH69/V70 naturally occurs) impairs spike incorporation and entry efficiency of B.1.1.7 spike pseudotyped virus. B.1.1.7 spike mediates faster kinetics of cell-cell fusion than wild type Wuhan-1 D614G, dependent on ΔH69/V70. Therefore, as ΔH69/V70 compensates for immune escape mutations that impair infectivity, continued surveillance for deletions with functional effects is warranted.

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Steven A Kemp

SARS-CoV-2 evolution during treatment of chronic infection

Sensitivity of SARS-CoV-2 B.1.1.7 to mRNA vaccine-elicited antibodies

Recurrent emergence of SARS-CoV-2 spike deletion H69/V70 and its role in the Alpha variant B.1.1.7

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