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Forskere oppdager gen som kan bidra til å forme immunresponsen mot Covid -virus

Forskere oppdager gen som kan bidra til å forme immunresponsen mot Covid -virus
Gene called OAS1 is thought to play key role in shaping individual’s response to Sars-CoV-2

Small variations in the genetic make-up of an individual may help to explain why some people mount a strong natural defence against Covid infection, while others develop severe illness, ifølge en ny studie.

Scientists at the MRC-University of Glasgow Centre for Virus Research have pinpointed a particular protein encoding gene, called OAS1, which is thought to play a key role in shaping the early stages of an individual’s response to Sars-CoV-2 – the virus that causes Covid-19.

When a human cell is infected, the OAS1 protein is able to sense the presence of the virus. It jumps into action, and kick-starts a chain of events linked to the activation of an RNA-killing enzyme, allowing the cell to start attacking the genetic material of the virus.

Studien, published in the journal Vitenskap, suggests that some people express a more protective version of OAS1 that has been ‘prenylated’. This is the addition of a single molecule of lipid to the protein encoded for by the OAS1 gene.

Because coronaviruses hide inside cells and replicate their genomes inside vesicles formed out of lipid, the prenylated OAS1 is therefore better suited to seeking out Sars-CoV-2 and directing the cellular weaponry to attack it.

In hospitalised patients, the prenylated version of the gene was associated with better outcomes from severe Covid-19. Those without it had worse clinical outcomes in comparison; ICU admission or death was 1.6 times more likely in these patients, the study said.

The researchers also found that, omtrent 55 millioner år siden, there was a removal of this protective gene in horseshoe bats – one of the presumed sources of SARS-CoV-2.

Som sådan, this means the virus never needed to adapt to evade this particular line of defence, which therefore remains effective for some humans in providing protection.

But should Sars-CoV-2 mutate and acquire the ability to circumvent the defences generated by the prenylated OAS1 protein, the virus could potentially become more deadly or transmissible.

Professor Sam Wilson, a virologist at the Centre for Virus Research, sa: “We know viruses adapt, and even Sars-CoV-2 has likely adapted to replicate in the animal reservoirs in which it circulates.

“Cross-species transmission to humans exposed the virus Sars-CoV-2 to a new repertoire of antiviral defences, some of which Sars-CoV-2 may not know how to evade.

“What our study shows us is that the coronavirus that caused the SARS outbreak in 2003 had already learned to evade prenylated OAS1 protein.

If Sars-CoV-2 variants learn the same trick, they could be substantially more pathogenic and transmissible in unvaccinated populations. This reinforces the need to continually monitor the emergence of new Sars-CoV-2 variants.”