Increased mutation in the coronavirus 'may be a GOOD thing

Increased mutation in the coronavirus ‘may be a GOOD thing’: Strain common in Europe, America and parts of Asia is more infectious but less deadly, expert reveals

  • Mutated strain D614G seems to be more infectious but less deadly than original 
  • Top expert says ‘maybe that’s a good thing’ as it could lower COVID-19 deaths  
  • Dr Paul Tambyah said most viruses tend to become less virulent as they mutate 

A strain of the coronavirus which carries a specific mutation is thriving in Europe, America and parts of Asia — and this may be good news. 

The variation in the SARS-CoV-2 virus, the agent which causes Covid-19, is called D614G and it may be more infectious but less deadly, according to a prominent infectious diseases doctor. 

Paul Tambyah, senior consultant at the National University of Singapore and president-elect of the International Society of Infectious Diseases, said evidence suggests the proliferation of the D614G mutation in some parts of the world has coincided with a drop in death rates, suggesting it is less lethal.

‘Maybe that’s a good thing to have a virus that is more infectious but less deadly,’ Tambyah told Reuters.

The spikes on the outside of the coronavirus (illustrated in red) are what it uses to latch onto cells on the inside of a victim’s airways. A mutated version of the virus appears to have developed stronger spikes so it is more likely to infect someone if they breathe it in, scientists say 

Tambyah said most viruses tend to become less virulent as they mutate. 

‘It is in the virus’ interest to infect more people but not to kill them because a virus depends on the host for food and for shelter,’ he said.

Scientists discovered the mutation as early as February and it has circulated in Europe and the Americas, the World Health Organization said. 

The WHO has also said there is no evidence the mutation has led to more severe disease.

On Sunday, Malaysia’s director-general of health Noor Hisham Abdullah urged greater public vigilance after authorities detected what they believe was the D614G mutation of the coronavirus in two recent clusters.

The D614G coronavirus mutation made the virus more infectious.

Bt it may also make it more vulnerable to vaccines, researchers believe.  

D614G, increases the number of ‘spikes’ on the surface of the virus and makes them more stable, allowing the virus to more efficiently break into and infect cells. 

The mutation will not pose problems for vaccines now in clinical trials, however, because the extra spikes retain the targets for the ‘neutralizing antibodies’ the vaccines are designed to induce. 

Those targets, called receptor-binding domains, or RBDs, are the places where the spike attaches itself to the cells it infects.

 With more spikes, there are more RBDs for the antibodies to bind to in order to neutralize the virus.

‘The gain in infectivity provided by D614G came at the cost of making the virus more vulnerable to neutralizing antibodies,’ the researchers wrote in a paper posted on medRxiv.

Sebastian Maurer-Stroh of Singapore’s agency for science, technology and research said the variant has also been found in the city-state but that containment measures have prevented large-scale spread.

Malaysia’s Noor Hisham said the D614G strain detected there was 10 times more infectious and that vaccines currently in development may not be effective against this mutation.

But Tambyah and Maurer-Stroh said such mutations would not likely change the virus enough to make potential vaccines less effective.

‘(The) variants are almost identical and did not change areas that our immune system typically recognise, so there shouldn’t be any difference for vaccines being developed,’ said Maurer-Stroh. 

Previous research by scientists at The Scripps Research Institute in Florida said in June that D614G has four to five times more ‘spikes’ that protrude from the viral surface allow it to latch onto human cells. 

These so-called S spikes are crucial in how the virus invades a cell. It tricks a receptor, called ACE2, on the surface of human cells into binding with the virus.

This opens the door for the virus to infect the cell where it thrives, multiplies and wreaks havoc. 

However, the original coronavirus which first jumped into humans, had a spike which often snapped off when trying to fuse with the receptor. 

The mutated strain. they say, is more robust and less likely to snap, making it better at infecting cells. 

Although the mutation makes the virus etter at infecting cells, it does not appear to make it any more potent or deadly. 

This, researchers suggest, could be because the spike had nothing to do with the virus’s ability to reproduce – to replicate – once it was inside the body. 

The process of reproduction, and using the body’s resources to achieve this, is how the coronavirus causes illness and happens when the pathogen is already inside a cell and is an independent process to initial infection.  

Researchers in the UK and US had in May noted that the mutated version of the virus had become ‘the dominant pandemic form in many countries’, including the then- hotspots of Italy, the US and the UK. 

They said it was first found in Germany in February and had since become the most common form of the virus in patients worldwide – it appears to force out the older version whenever they clash.

Viruses mutate naturally all the time and it is not usually cause for alarm but should be studied in case they change so much they become unrecognisable to the body and immunity from a first infection cannot protect against them, as is the case with flu.

A study done by scientists at the University of Sheffield and Los Alamos National Laboratory, New Mexico, found that the original virus made up the vast majority of all Covid-19 infections in China, and Asia as a whole, and also seemed to be the first version of the virus to appear in the countries they studied.

However, the mutated version started to appear soon after in Europe and North America in particular, before going on to take over as the dominant virus.

WHAT IS AN ACE-2 RECEPTOR AND WHAT DOES IT HAVE TO DO WITH COVID-19? 

ACE-2 receptors are structures found on the surface of cells in the lungs and airways which work with an enyzme called ACE (angiotensin-converting enzyme) to regulate blood pressure.

Its exact function in the lungs is not well understood but studies suggest it is protective against lung damage and low levels of it can worsen the impact of viral infections.

Scientists say that the coronavirus which causes COVID-19 enters the body through the ACE-2 receptor, which the shape of it allows it to latch on to.

This means that someone with more ACE-2 receptors may be more susceptible to a large viral load – first infectious dose of a virus – entering their bloodstream.

People who have higher than usual numbers of ACE-2 receptors may include those with diabetes or high blood pressure because they have genetic defects which make them produce more.

High levels of ACE-2 receptors may also be protective, however.

They are thought to be able to protect the lungs during infection and a study on mice in 2008 found that mice which had ACE-2 blocked in their bodies suffered more damage when they were infected with SARS, which is almost identical to COVID-19.

Smoking has in the past been repeatedly linked to lower than normal levels of ACE-2 receptors, potentially increasing the risk of lung damage from COVID-19.

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