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Vitamins A, D, and K might help you combat covid-19 naturally, says this German study

Updated on:30 January 2021, 17:33pm IST
A German study claims that consuming vitamins D, K, and A can help bolster the body’s response against covid-19.
ANI
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Vitamins are the way to battle covid-19, if this study is to be believed. Image courtesy: Shutterstock
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If taking a sunbath is a challenge for you then maybe this new study will give you a push that you need. We all know that sunlight is the ultimate source of vitamin D. And this vitamin is going to be the game changer in fighting the covid-19 virus, because a German study suggests that vitamin D can help in reducing infection.

Apart from vitamin D, the study found vitamins K and A can also bolster the body’s response against covid-19. 

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These vitamins might reduce the infectious nature of the virus, says study

The research indicates that these dietary supplements and compounds could bind to the viral spike protein and so might reduce SARS-CoV-2 infectivity.

In contrast, cholesterol may increase infectivity, which could explain why having high cholesterol is considered a risk factor for serious disease. The study from the University of Bristol was published in the journal of the German Chemical Society Angewandte Chemie.

Recently, Bristol researchers showed that linoleic acid binds to a specific site in the viral spike protein, and that by doing so, it locks the spike into a closed, less infective form. Now, a research team has used computational methods to search for other compounds that might have the same effect, as potential treatments.

They hope to prevent human cells from becoming infected by preventing the viral spike protein from opening enough to interact with a human protein (ACE2). 

New antiviral drugs can take years to design, develop and test, so the researchers looked through a library of approved drugs and vitamins to identify those which might bind to this recently discovered ‘druggable pocket’ inside the SARS-CoV-2 spike protein.

The team first studied the effects of linoleic acid on the spike, using computational simulations to show that it stabilizes the closed form. Further simulations showed that dexamethasone—which is an effective treatment for covid-19—might also bind to this site and help reduce viral infectivity in addition to its effects on the human immune system.

covid-19 and vitamin D
Vitamin D is great for your body, especially during covid-19. Image courtesy: Shutterstock

The team then conducted simulations to see which other compounds bind to the fatty acid site. This identified some drugs that have been found by experiments to be active against the virus, suggesting that this may be one mechanism by which they prevent viral replication such as, by locking the spike structure in the same way as linoleic acid.

The findings suggested several drug candidates among available pharmaceuticals and dietary components, including some that have been found to slow SARS-CoV-2 reproduction in the laboratory. These have the potential to bind to the SARS-CoV-2 spike protein and may help to prevent cell entry.

The simulations also predicted that the fat-soluble vitamins D, K, and A bind to the spike in the same way making the spike less able to infect cells.

Consuming vitamins is the key to combating covid-19

Dr Deborah Shoemark, Senior Research Associate (Biomolecular Modelling) in the School of Biochemistry, who modelled the spike, explained: “Our findings help explain how some vitamins may play a more direct role in combating Covid than their conventional support of the human immune system.

“Obesity is a major risk factor for severe Covid. Vitamin D is fat soluble and tends to accumulate in fatty tissue. This can lower the amount of vitamin D available to obese individuals. Countries in which some of these vitamin deficiencies are more common have also suffered badly during the course of the pandemic. Our research suggests that some essential vitamins and fatty acids including linoleic acid may contribute to impeding the spike/ACE2 interaction. Deficiency in any one of them may make it easier for the virus to infect.”

Pre-existing high cholesterol levels have been associated with increased risk for severe Covid-19. Reports that the SARS-CoV-2 spike protein binds cholesterol led the team to investigate whether it could bind at the fatty acid binding site. Their simulations indicate that it could bind, but that it may have a destabilising effect on the spike’s locked conformation, and favour the open, more infective conformation.

Dr Shoemark continued: “We know that the use of cholesterol-lowering statins reduces the risk of developing severe Covid and shortens recovery time in less severe cases. Whether cholesterol de-stabilises the “benign”, closed conformation or not, our results suggest that by directly interacting with the spike, the virus could sequester cholesterol to achieve the local concentrations required to facilitate cell entry and this may also account for the observed loss of circulating cholesterol post-infection.”

Professor Adrian Mulholland, of Bristol’s School of Chemistry, added: “Our simulations show how some molecules binding at the linoleic acid site affect the spike’s dynamics and lock it closed. They also show that drugs and vitamins active against the virus may work in the same way. Targeting this site may be a route to new anti-viral drugs. A next step would be to look at the effects of dietary supplements and test viral replication in cells.”

covid-19 and vitamin D
Gotta find more sources to get that dose of vitamin A! Image courtesy: Shutterstock

Alison Derbenwick Miller, Vice President, Oracle for Research, said: “It’s incredibly exciting that researchers are gaining new insights into how SARS-CoV-2 interacts with human cells, which ultimately will lead to new ways to fight Covid-19. We are delighted that Oracle’s high-performance cloud infrastructure is helping to advance this kind of world-changing research. Growing a globally-connected community of cloud-powered researchers is exactly what Oracle for Research is designed to do.”

The team included experts from Bristol UNCOVER Group, including Bristol’s Schools of Chemistry, Biochemistry, Cellular and Molecular Medicine, and Max Planck Bristol Centre for Minimal Biology, and Bristol Synthetic Biology Centre, using Bristol’s high-performance computers and the UK supercomputer, ARCHER, as well as Oracle cloud computing. The study was supported by grants from the EPSRC and the BBSRC. 

To absorb vitamin D in abundance all you’ve to do is just spend at least 15 minutes in the sunlight, possibly in the early hours of the day and battle covid-19 naturally.