Scientists warn of new Covid variant with high number of mutations

The B.1.1.529 variant was first spotted in Botswana and six cases have been found in South Africa, one in Hong Kong in a traveller returning from South Africa.

The first cases of the  new  COVID variant were collected in Botswana on 11 November, and the earliest in South Africa was recorded three days later. The case found in  Hong Kong was a 36-year-old man who had a negative PCR test before flying from Hong Kong to South Africa, where he stayed from 22 October to 11 November. He tested negative on his return to Hong Kong, but tested positive on 13 November while in quarantine.

Scientists have said a new Covid variant that carries an “extremely high number” of mutations may drive further waves of disease by evading the body’s defences.

Only 10 cases in three countries have been confirmed by genomic sequencing, but the variant has sparked serious concern among some researchers because a number of the mutations may help the virus evade immunity.

The B.1.1.529 variant has 32 mutations in the spike protein, the part of the virus that most vaccines use to prime the immune system against Covid.

Mutations in the spike protein can affect the virus’s ability to infect cells and spread, but also make it harder for immune cells to attack the pathogen.

Dr Tom Peacock, a virologist at Imperial College London, posted details of the new variant on a genome-sharing website, noting that the “incredibly high amount of spike mutations suggest this could be of real concern”. His lates post states,

New proposed lineage
By Tom Peacock

Description
Sub-lineage of: B.1.1
Earliest Sequence: 2021-11-11
Latest Sequence: 2021-11-13

Countries circulating: Botswana (3 genomes), Hong Kong ex S. Africa (1 genome, partial)

Description:
Conserved Spike mutations — A67V, Δ69-70, T95I, G142D/Δ143-145, Δ211/L212I, ins214EPE, G339D, S371L, S373P, S375F, K417N, N440K, G446S, S477N, T478K, E484A, Q493K, G496S, Q498R, N501Y, Y505H, T547K, D614G, H655Y, N679K, P681H, N764K, D796Y, N856K, Q954H, N969K, L981F

Conserved non-Spike mutations — NSP3 – K38R, V1069I, Δ1265/L1266I, A1892T; NSP4 – T492I; NSP5 – P132H; NSP6 – Δ105-107, A189V; NSP12 – P323L; NSP14 – I42V; E – T9I; M – D3G, Q19E, A63T; N – P13L, Δ31-33, R203K, G204R

Currently only 4 sequences so would recommend monitoring for now. Export to Asia implies this might be more widespread than sequences alone would imply. Also the extremely long branch length and incredibly high amount of spike mutations suggest this could be of real concern (predicted escape from most known monoclonal antibodies)

Genomes:
EPI_ISL_6590608 (partial RBD Sanger sequencing from Hong Kong)
EPI_ISL_6640916
EPI_ISL_6640919
EPI_ISL_6640917

In a series of tweets, Peacock said it “very, very much should be monitored due to that horrific spike profile”, but added that it may turn out to be an “odd cluster” that is not very transmissible. 

The Delta variant of Sars-CoV-2

Dr Meera Chand, the Covid-19 incident director at the UK  Health Security Agency, said that in partnership with scientific bodies around the globe, the agency was constantly monitoring the status of Sars-CoV-2 variants as they emerge and develop worldwide.

“As it is in the nature of viruses to mutate often and at random, it is not unusual for small numbers of cases to arise featuring new sets of mutations. Any variants showing evidence of spread are rapidly assessed,” she said.

Scientists will be watching the new variant for any sign that it is gaining momentum and spreading more widely.

Some virologists in South Africa are already concerned, particularly given the recent rise in cases in Gauteng, an urban area containing Pretoria and Johannesburg, where B.1.1.529 cases have been detected.

An NHS vaccinator administers the Moderna Covid-19 vaccine to a woman at a vaccination centre in London.

Ravi Gupta, a professor of clinical microbiology at Cambridge University, said work in his lab found that two of the mutations on B.1.1.529 increased infectivity and reduced antibody recognition. “It does certainly look a significant concern based on the mutations present,” he said. “However, a key property of the virus that is unknown is its infectiousness, as that is what appears to have primarily driven the Delta variant. Immune escape is only part of the picture of what may happen.”

Prof Francois Balloux, the director of the UCL Genetics Institute, said the large number of mutations in the variant apparently accumulated in a “single burst”, suggesting it may have evolved during a chronic infection in a person with a weakened immune system, possibly an untreated HIV/Aids patient.

“I would definitely expect it to be poorly recognised by neutralising antibodies relative to Alpha or Delta,” he said.

“It is difficult to predict how transmissible it may be at this stage. For the time being it should be closely monitored and analysed, but there is no reason to get overly concerned unless it starts going up in frequency in the near future.”

Source:The Guardian

Last Updated on 24.11.2021 by iskova