COVID-19 immunity after infection could be long lasting and boosted by vaccination

Embargoed until: Publicly released: 2021-06-15 10:56

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Immunity after a COVID-19 infection could be long-lasting and is boosted by vaccination, according to US research. The study of 63 people with past COVID infections found that 6-12 months after infection the range of antibodies produced by memory B cells increased in range and potency. Just under half of the study participants also went on the be vaccinated with either the Moderna or the Pfizer–BioNTech vaccines, and these people produced antibodies that were highly effective against SARS-CoV-2 variants. A year after infection, neutralising activity against all forms of the virus included in this study was lower in people who had not been vaccinated than in those who had been vaccinated. The authors say this hints that vaccination increases immunity in those who have already had the disease.

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From: Springer Nature

Immunology: Long-lasting immunity after SARS-CoV-2 infection (N&V)

Antibodies produced in response to SARS-CoV-2 infection continue to evolve over a 6-to-12-month period, and are boosted by vaccination, a Nature paper reveals. The findings suggest that immunity could be long-lasting in previously infected individuals, and that convalescent individuals who receive vaccines are likely to be protected against circulating SARS-CoV-2 variants.

Michel Nussenzweig and colleagues analysed blood samples from 63 people who had recovered from COVID-19 in the previous year. Of these, 26 had received at least one dose of either the Moderna or the Pfizer–BioNTech vaccines. From 6 to 12 months, the range of antibodies produced by memory B cells increased in range and potency, and when individuals were subsequently vaccinated, they went on to produce antibodies that were highly effective against SARS-CoV-2 variants, including variants of concern.

A year after infection, neutralizing activity against all forms of the virus included in this study was lower in people who had not been vaccinated than in those who had been vaccinated. This hints that vaccination increases immunity in those who have already had the disease. The authors also suggest that if B cells evolve in a similar manner in vaccinated people who have not had the disease, then an appropriately timed booster vaccine may be able to generate protective immunity against circulating variants.

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conference: Nature

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Organisation/s: The Rockefeller University, USA

Funder: This work was supported by NIH grant P01-AI138398-S1 (M.C.N., C.M.R and P.J.B.) and 2U19AI111825 (M.C.N. and C.M.R); George Mason University Fast Grants to C.M.R., 3 R01-AI091707-10S1 to C.M.R.; The G. Harold and Leila Y. Mathers Charitable Foundation to C.M.R.; NIH grant R37-AI64003 to P.D.B.; NIH grant R01AI78788 to T.H.; We thank Dr. Jost Vielmetter and the Protein Expression Center in the Beckman Institute at Caltech for expression assistance. C.O.B. is supported by the HHMI Hanna Gray and Burroughs Wellcome PDEP fellowships. C.G. was supported by the Robert S. Wennett Post-Doctoral Fellowship, in part by the National Center for Advancing Translational Sciences (National Institutes of Health Clinical and Translational Science Award program, grant UL1 TR001866), and by the Shapiro-Silverberg Fund for the Advancement of Translational Research. P.D.B. and M.C.N. are Howard Hughes Medical Institute Investigators. F.M. is supported by the Bulgari Women & Science Fellowship in COVID-19 Research. The Rockefeller University has filed a provisional patent application in connection with this work on which M.C.N.is an inventor (US patent 63/021,387). The patent has been licensed by Rockefeller University to Bristol Meyers Squib. Z.Z. received seed instruments and sponsored research funding from ET Healthcare.

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