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Celerity

(42,627 posts)
9. Different variant, but AstraZenca so far has been a fail verus South African B.1.351
Wed Mar 31, 2021, 07:51 AM
Mar 2021
AstraZeneca Vaccine Fails To Protect Against The South African Variant, Says Study

https://www.forbes.com/sites/williamhaseltine/2021/03/17/astrazeneca-vaccine-fails-to-protect-against-the-south-african-variant/?sh=7539a7be6526

Two doses of the AstraZeneca Covid-19 vaccine were found to have only a 10.4% efficacy against mild-to-moderate infections caused by the B.1.351 South Africa variant, according to a phase 1b-2 clinical trial published on Tuesday in the New England Journal of Medicine. This is a cause for grave concern as the South African variants share similar mutations to the other variants leaving those vaccinated with the AstraZeneca vaccine potentially exposed to multiple variants. This new finding should force a rapid acceleration of second-generation vaccines and encourage further research into the possibility of a pancoronavirus vaccine.


The trial evaluated the safety and the efficacy of the AstraZeneca vaccine in HIV-negative adults aged between 18 to 64 years old with a median age of 30 years old. The trial was conducted between June 24 and November 9, 2020 in South Africa using a multisite, double-blind, randomized, placebo-controlled approach. Out of the trial’s 750 vaccine recipients, 19 (2.5%) developed mild to moderate COVID-19 more than 14 days after the second dose, compared with 23 of 717 placebo recipients (3.2%). Of the 42 total cases of Covid-19, 39 (93%) were caused by the B.1.351 South Africa variant. These results demonstrated that the AstraZeneca vaccine was only 10.4% effective against the B.1.351 South Africa variant. It is important to note that there were still no cases of hospitalization for severe Covid-19 or deaths observed in the study. Yet the authors did caution that the relatively young median age of participants (30 years) likely influenced the lack of severe Covid-19 cases.

The South African B.1.351 shares similar mutations with several other variants. Mutations to positions 417 (K417N), 484 (E484K), and 501 (N501Y) are all located in the receptor-binding domain. This structure is the part of the spike protein that attaches to the ACE2 receptor of the human cell. The K417N and E484K mutations have been seen in the Brazilian and Japanese variants, and N501Y has additionally been seen in the UK variant.

External to the spike protein, there are a set of three deletions in non-structural protein six which also appear in the Brazilian, Japanese, UK, Nigerian, and New York variants. NSP6 is a structural transmembrane protein and these deletions additionally may assist in neutralization escape. NSP2 also carries a common mutation: T85I. This mutation appears in the California variant, the New York variant, and a number of other US variants. While NSP2 has no known function, the pervasiveness of the mutation is notable at the very least. In NSP12, mutation P323L is pervasive in nearly every variant. This protein is the polymerase, which controls viral replication. While it may not aid immune-escape, this mutation certainly aids increased transmissibility of the South African variant and others.

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