New research published in Nature Communications by an international research team finds that people suffering from Covid-19 could have several different SARS-CoV-2 variants hidden away from the immune system in different parts of the body.
What does this mean?
The study’s authors say that this may make complete clearance of the virus from the body of an infected person, by their own antibodies, or by therapeutic antibody treatments, much more difficult.
Context
Covid-19 continues to cause hospitalisations and deaths internationally, damaging communities and economies worldwide. Successive variants of concern (VoC) replaced the original virus from Wuhan, increasingly escaping immune protection offered by vaccination or antibody treatments.
New research
New research, comprising two studies published in parallel in Nature Communications, an international team led by Professor Imre Berger at the University of Bristol and Professor Joachim Spatz at the Max Planck Institute for Medical Research in Heidelberg, both Directors of the Max Planck Bristol Centre of Minimal Biology, show how the virus can evolve distinctly in different cell types, and adapt its immunity, in the same infected host.
The team sought to investigate the function of a tailor-made pocket in the SARS-CoV-2 spike protein in the infection cycle of the virus. The pocket, discovered by the Bristol team in an earlier breakthrough, played an essential role in viral infectivity.
The team applied synthetic biology techniques, imaging and cloud computing to decipher viral mechanisms at work. To understand the function of the pocket, the scientists built synthetic SARS-CoV-2 virions in the test tube, that are mimics of the virus but have a major advantage in that they are safe, as they do not multiply in human cells.
Using these artificial virions, they were able to study the exact mechanism of the pocket in viral infection. They demonstrated that upon binding of a fatty acid, the spike protein decorating the virions changed their shape. This switching ‘shape’ mechanism effectively cloaks the virus from the immune system.
Official comments
Dr Kapil Gupta, lead author of the BrisDelta study, said: “Our results showed that one can have several different virus variants in one’s body. Some of these variants may use kidney or spleen cells as their niche to hide, while the body is busy defending against the dominant virus type. This could make it difficult for the infected patients to get rid of SARS-CoV-2 entirely.”
Dr Oskar Staufer, lead author of this study and joint member of the Max Planck Institute in Heidelberg and the Max Planck Centre in Bristol, said: “By ‘ducking down’ of the spike protein upon binding of inflammatory fatty acids, the virus becomes less visible to the immune system. This could be a mechanism to avoid detection by the host and a strong immune response for a longer period of time and increase total infection efficiency.”
Professor Imre Berger said: “It appears that this pocket, specifically built to recognise these fatty acids, gives SARS-CoV-2 an advantage inside the body of infected people, allowing it to multiply so fast. This could explain why it is there, in all variants, including Omicron. Intriguingly, the same feature also provides us with a unique opportunity to defeat the virus, exactly because it is so conserved – with a tailormade antiviral molecule that blocks the pocket.”
Looking forward
Halo Therapeutics, a recent University of Bristol spin-out founded by the authors, pursues the above-mentioned approach to develop pocket-binding pan-coronavirus antivirals.
Image credit: Oskar Staufer and MPI for Medical Research, Germany
