Oxford and AstraZeneca will make a new Covid vaccine by AUTUMN to tackle mutated variants as coronavirus keeps evolving to escape the immune system

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Title : Oxford and AstraZeneca will make a new Covid vaccine by AUTUMN to tackle mutated variants as coronavirus keeps evolving to escape the immune system
Link : Oxford and AstraZeneca will make a new Covid vaccine by AUTUMN to tackle mutated variants as coronavirus keeps evolving to escape the immune system

  • Sir Mene Pangalos, a boss at AstraZeneca, said it aims to be ready by autumn
  • The new jab will likely be made to target mutation on the South Africa variant 
  • Professor Andrew Pollard said it would be quicker to make than the first jabOxford University and AstraZeneca plan to have a new Covid vaccine ready by the autumn to tackle new variants of the coronavirus, they confirmed today.

    Growing evidence suggests that a mutation first found in the South African variant of the virus, and now cropping up elsewhere, can reduce how well current vaccines work because it changes the shape of the spike protein that the jabs target.

    And to overcome this, jab manufacturers say they are already working on updating their vaccines because they need to be extremely specific to offer the best form of protection.The Oxford/AstraZeneca team, makers of one of the world's most advanced vaccines so far, say they will have their adapted version ready and manufactured before the end of 2021.

    Oxford's Professor Andrew Pollard, who is leading studies of the jab, said it would be a 'short process' compared to making the original vaccine from scratch. 

    The update could be used either as a booster for people who have already had a different vaccine or it could be used on its own for those who are still unvaccinated.

    AstraZeneca's executive vice-president, Sir Mene Pangalos, said today: 'We're very much aiming to have something ready by the autumn this year.'

    The announcement comes after the team got a huge boost to their jab development from a study published last night that suggested it can cut transmission by up to two thirds and a single dose can prevent 76 per cent of severe illnesses for three months, with that rising to 82 per cent after the second dose. 

    In another ray of hope from Oxford's research, Dr Andrew Pollard — one of the lead Oxford researchers — said he is confident the current jabs will still prevent severe Covid in people who get infected with mutated variants of the virus. 

    He admitted the South African strain 'will have a big impact on the immune response from all the vaccines', suggesting the jab may not be as effective in curbing spread. But he says it is possible that it will morph to become like other coronaviruses that just cause a common cold or 'mild' infections.  

    The Oxford/AstraZeneca vaccine, named ChAdOx1, is one of the most advanced in the world and has already been given to millions of people and data suggests it can stop transmission of the virus as well as severe Covid-19 disease

      The Oxford/AstraZeneca vaccine, named ChAdOx1, is one of the most advanced in the world and has already been given to millions of people and data suggests it can stop transmission of the virus as well as severe Covid-19 disease

      Professor Andrew Pollard told a media briefing: 'I think the actual work on designing a new vaccine is very, very quick because it's essentially just switching out the genetic sequence for the spike protein, so for the updated variants.

      'Then there's manufacturing to do and then a small-scale study.

      'All of that can be completed in a very short period of time, and the autumn is really the timing for having new vaccines available for use rather than for having the clinical trials run.'

      Vaccines are likely to have be updated over time to cope with mutated variants of the coronavirus because they make specific molecules to target the virus.

      One of the main ways the immune system destroys viruses — but not the only one — is by using antibodies, but these are generally unique to every different virus and must be made from scratch.

      Vaccinating someone introduces a part of the virus to the body so the immune system can mould antibodies to it and then store them in case it comes into contact with the real, live virus in the future. 

      When the virus mutates and changes shape – as its spike protein has in coronavirus cases caused by the South Africa variant and the ones found in Brazil and Kent – these antibodies can become outdated and less successful at targeting the virus. 

      Top Government advisers insist the current crop should still work — but may be slightly less effective.

      If the immune system has a weaker line of defence against the virus because of this, it raises the risk of people getting reinfected or getting sick despite having been immunised.

      Developing new vaccines based on this changed version of the virus should overcome this problem.

      Professor Pollard said it was 'very difficult to know' which mutations and variants would pose the biggest problems by the autumn this year.

      But he said: 'At this moment, researchers are looking at current variants that are dominating... I suspect that this is going to be an ongoing challenge to follow what the virus is doing.'

      The main worrying variants at the moment are B.1.1.7, found in England; B.1.351, which emerged in South Africa; and P.1, from Brazil.

      The South African and Brazilian variants both have a mutation called E484K, which changes the spike protein in a way that makes vaccines less effective.

      A study in South Africa found that 48 per cent of blood samples from people who had been infected in the past did not show an immune response to viruses with this E484K mutation. One researcher said it was 'clear that we have a problem'. 

      And cases of the English Kent variant have also been found with the same mutation, although it is not yet a permanent feature of that strain.

      Professor Pollard said earlier today that he expects the E484K mutation and future changes to the virus to reduce how well the current vaccines work.

      He told BBC Radio 4's Today programme: 'That mutation is a really interesting one because it is in a bit of the spike protein that most of us try and make antibodies against, and so it’s highly likely that that will have a big impact on the immune response from all the vaccines... 

      'I think all developers are looking at updated vaccines at this moment so there will be vaccines that are tested – and that’s a relatively short process – in order to make sure that we are prepared if these mutations result in ongoing severe disease.

      'But I think there is a bit of hope in that, when we look at studies that have been done of the vaccines from any country in the world, including those with the variants, if they look at severe disease in those studies then we’re still seeing very good protection.'

      SINGLE SHOT OF OXFORD'S JAB 76% EFFECTIVE FOR 12 WEEKS 

      A single shot of Oxford University's coronavirus vaccine is 76 per cent effective at preventing symptomatic illness and may have a 'substantial effect' on transmission, research suggests. 

      In a huge boost to the UK's immunisation drive, analysis of the jab trials found the first dose was extremely successful in preventing people from falling ill within the 12-week time window between getting a second dose.  

      When the second dose is administered after three months, the jab's efficacy is bumped up to 82.4 per cent, according to the study, which has been submitted to The Lancet for publication.  

      The results, from more than 17,000 trial volunteers, suggest Britain's vaccination gamble to delay its dosing regimen has paid off. 

      In a bid to get wider vaccine coverage quicker, regulators pivoted from their original plan to give people their second dose after 21 days when the Oxford University/AstraZeneca jab was approved in late December.

      They pushed back the second dose for 12 weeks in the hope that giving partial protection to as many vulnerable people as possible would drive down hospital admissions. 

      Research found that the Oxford/AstraZeneca jab was 84% effective at preventing Covid-19 with doses 12 weeks apart and it appeared to get better the further apart the doses were (shown graph top left, how the protection level changed based on the dose spacing). And it also proved that there was a high level of protection from disease for weeks and even months after even just a single dose (bottom graph, showing how the efficacy of the vaccine remained high for almost 100 days after dose one)

        Research found that the Oxford/AstraZeneca jab was 84% effective at preventing Covid-19 with doses 12 weeks apart and it appeared to get better the further apart the doses were (shown graph top left, how the protection level changed based on the dose spacing). And it also proved that there was a high level of protection from disease for weeks and even months after even just a single dose (bottom graph, showing how the efficacy of the vaccine remained high for almost 100 days after dose one)

        Boris Johnson tweeted: 'Really encouraging data from a new study today shows the Oxford/AZ vaccine provides significant protection against the virus.' 

        The strategy has helped make Britain a world-leader in vaccinations, with 9.6million people now injected with at least a single dose of either Pfizer's or AstraZeneca's jab. 

        Meanwhile, analysis of PCR positive swabs carried out on nearly 7,000 patients in the UK arm of Oxford's trial suggests the vaccine may reduce transmission by 67 per cent.

        Health Secretary Matt Hancock described the findings as 'hugely encouraging', adding: 'It further reinforces our confidence that vaccines are capable of reducing transmission and protecting people from this awful disease.'

        Dr Gillies O'Bryan-Tear, of the Faculty of Pharmaceutical Medicine, said the study suggested the Oxford-AstraZeneca vaccine could be the 'holy grail'.  

        He added: 'The data support the recommendation to delay the second dose of the Oxford vaccine out to 12 weeks.

        'If these vaccines reduce transmission to the extent reported, it will mean that the easing of social restrictions will be enabled sooner, than if we have to wait for herd immunity, which may never in fact be achieved because of insufficient vaccine population coverage.

        'That would be the holy grail of the global vaccine rollout, and these data bring us one step closer.' 

        KENT VARIANT FOUND WITH MUTATION FROM SOUTH AFRICA STRAIN

        The Kent Covid variant has started to mutate further to become more like the one that evolved in South Africa in what scientists have dubbed a 'worrying development' that could make vaccines less effective.

        One of the key mutations on the South African and Brazilian variants appear to make the virus more able to resist immunity that has been developed by past infection or from the current vaccines.

        And this mutation has now been found at least 11 times in different cases of people infected with the Kent variant, Public Health England revealed, raising fears it could become a permanent feature of the British strain.

        Both the Kent and South African variants already share one mutation, named N501Y, which makes the virus spread faster. And if this mutation, named E484K, sticks around as well the variants could become extremely similar.

        E484K has been concerning scientists because it changes the shape of the virus's outer spike protein in a way that makes it difficult for the body to recognise it if it is only used to looking for older versions of the virus without the mutation. 

        This could raise the risk of reinfection or reduce how well vaccines work — but top Government advisers insist jabs should still be effective. The jabs, however, have been made to specifically target an older version of the virus that didn't have the mutation, meaning that major changes to the virus might make it less able to spot and fix to it.

        SAGE adviser Professor Calum Semple suggested yesterday that the risk of the Kent variant – and other versions of the virus – continuing to evolve was 'inevitable' and 'will occur in time', and this mutation would likely be part of that.

        Speaking about the threat, Professor Ravi Gupta, an infectious diseases expert at Cambridge University, said: 'The number of sequences is low at present, though enhanced surveillance is being undertaken by PHE. There may be more cases out there given how high transmission has been. We need to continue vaccinating and drive down transmission.' 


      Oxford and AstraZeneca will make a new Covid vaccine by AUTUMN to tackle mutated variants as coronavirus keeps evolving to escape the immune system

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