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T cells familiar with coronavirus were found not only in those who had recovered

Shomuradova et al. / Immunity


Russian scientists compared the immune response to coronavirus in people who were sick and not sick with COVID-19 and found that the T cells of the latter also often recognize the virus, but they do not have antibodies to it. This lends support to the idea that the body may well be able to fight off the virus with a single T-cell response, either newly acquired or learned from old seasonal coronaviruses. In addition, scientists were able to determine the areas of coronavirus proteins to which T cells respond most often, and the corresponding popular variants of T-cell receptors. The results of this work, published in the journal Immunity, may be useful in the development of commercial tests to assess the T cell response to SARS-CoV-2.

The fact that the T-cell response in COVID-19 plays an important role has been known since spring. This is supported by the lack of a positive correlation between low antibody levels and disease severity; in addition, in some patients, antibodies to SARS-CoV-2 cannot be found at all. In these cases, a person can cope with the virus at the expense of another part of the immune system – T cells. During the course of the disease, they learn to recognize the pathogen, destroy diseased cells on their own, and guide other participants in the immune response.

If a person, whose immune system was protected from the virus by T-cells, had the infection asymptomatically and did not pass the PCR tests on time, then it will not be possible to understand whether he really got sick with an antibody test. In this case, it is necessary to check the T-cell response, but so far this diagnostic method is not widespread and commercial tests are only start to appear.

In the laboratory, the activity of T cells in response to pathogen recognition is measured using ELISPOT technology. When activated, T cells begin to secrete cytokines, and these cytokines can be “caught” using standard laboratory antibodies. The cytokine-antibody complexes are counted and therefore it is assessed whether the sample contains T cells that recognize a particular part of the virus.

To understand the immune response in more detail, a group of researchers from the National Medical Research Center of Hematology, led by Grigory Efimov, tested the antibody and T-cell responses to coronavirus proteins on three types of samples. The first samples were obtained in the spring from 34 patients with COVID-19, the second were collected at the same time from 7 who were not sick, and the third group of samples (10 plasma samples and 10 blood cells) were taken from the 2017 and 2019 collections.

It turned out that the majority of those who had been ill have both antibodies to all three tested coronavirus proteins and virus-specific killer T cells and T helper cells – two types of T cells. But in some of the patients the answer was incomplete: in a couple of people they did not find the necessary antibodies at all, while other patients did not have any of the types of T cells.

If we compare the results between the sick and not sick, we can see that in the latter, antibodies can be detected only in much smaller quantities – and, basically, to the most conservative N protein. At the same time, many samples contain T cells that can “turn on” when interacting with the details of SARS-CoV-2, and there are much more such samples in 2020.

According to the first author of the article, Alina Shomuradova, the nature of such a response may be different: “The T-cell response can be observed due to the fact that immunological memory cells are activated for other coronaviruses that existed around us before 2019. Or, for example, these people actually suffered from COVID-19 asymptomatically and did not develop antibodies to the virus. ” The presence of antibodies to the conserved N-protein can also be explained by the similarity between this protein in SARS-CoV-2 and other coronaviruses.

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