Photo Credit: National Institute of Allergy and Infectious Diseases, NIH
Novel Coronavirus SARS-CoV-2.

Nearly two years since becoming a global pandemic that has killed millions of people, the mystery of which proteins in the SARS-CoV-2 virus are responsible for severe vascular damage that could even lead to heart attack or stroke has been solved by a team of experts led by Tel Aviv University.

The team identified the five proteins that are responsible for damaging blood vessels. The researchers hope that the identification of these proteins will help develop targeted drugs for COVID-19 that reduce vascular damage.


“We see a very high incidence of vascular disease and blood clotting, for example, stroke and heart attack, among COVID patients,” said Dr. Ben Maoz, one of the study leaders.

“We tend to think of COVID as primarily a respiratory disease, but the truth is that coronavirus patients are up to three times more likely to have a stroke or heart attack. All the evidence shows that the virus severely damages the blood vessels or the endothelial cells that line the blood vessels. However, to this day the virus has been treated as one entity. We wanted to find out which proteins in the virus are responsible for this type of damage,” he explained.

The coronavirus is a relatively simple virus and is comprised of a total of 29 different proteins, compared to the tens of thousands of proteins produced by the human body. The TAU researchers used the RNA of each of the COVID-19 proteins and examined the reaction that occurred when the various RNA sequences were inserted into human blood vessel cells in the lab, and were able to identify five coronavirus proteins that damage the blood vessels.

“When the coronavirus enters the body, it begins to produce 29 proteins, a new virus is formed, that virus produces 29 new proteins, and so on,” Maoz pointed out. “In this process, our blood vessels turn from opaque tubes into kind of permeable nets or pieces of cloth, and in parallel, there is an increase in blood clotting.”

“We thoroughly examined the effect of each of the 29 proteins expressed by the virus, and were successful in identifying the five specific proteins that cause the greatest damage to endothelial cells and hence to vascular stability and function. In addition, we used a computational model developed by Prof. Roded Sharan which allowed us to assess and identify which coronavirus proteins have the greatest effect on other tissues, without having seen them ‘in action’ in the lab.”

Maoz thinks that the identification of these proteins may have significant consequences in the fight against the virus. “Our research could help find targets for a drug that will be used to stop the virus’s activity, or at least minimize damage to blood vessels.”


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