Increased expression of tyrosine protein phosphatase (CD45) on the surface of human blood granulocytes under the influence of the plague microbe vaccine strain <I>Yersinia pestis</I> EV NIIEG <I>ex vivo</I> and <I>in vivo</I>

Abstract

Tyrosine protein phosphatase (common leukocyte antigen CD45) regulates FcᵧR-mediated cell signaling and secretory function of neutrophilic granulocytes (NG) when interacting with antigen-antibody immune complexes. The aim of the work is to study changes in the expression of CD45 on the surface of human granulocytes in ex vivo modeling of bacteremia by live cells of the plague microbe vaccine strain Yersinia pestis EV NIIEG and to evaluate the priming effect of the live plague vaccine (LPV) in vivo in terms of this parameter. The expression density of CD45 on NG was determined by flow cytometry in conventional units of fluorescence intensity (MFI) after staining the cells with the CD45-FITC labeled mouse antibody reagent (Backman Coulter, USA) during immunophenotyping of blood leukocytes according to the Lyse/No Wash protocol. In donors not previously vaccinated against plague (group 1), the value of the indicator was assessed before and 30 min, 2 h, 6 h after the addition of Y pestis EV cells to whole blood at a dose of 108 mc/ml, as well as 1 month and 6 months after the primary anti-plague vaccination. In individuals who had previously been repeatedly vaccinated with LPV in the territory of the natural plague focus (group 2), CD45 expression on blood granulocytes was determined one year after the last annual vaccination, and then 1 month and 6 months after revaccination. Getting into human blood, living cells of the vaccine strain Y pestis EV of the plague microbe induced a change in the NC phenotype already after 30 minutes, associated with a 3.5-fold increase in the surface expression of CD45, which remained at an elevated level for 6 hours. The studied indicator depended ex vivo on the degree of resistance of plague microbes to phagocytosis and killing of NG. Plague vaccination had a similar stimulating effect on human peripheral blood NG in vivo. Under the influence of HPV, CD45 expression increased on blood NG in groups 1 and 2 one month after vaccination, and the changes persisted in volunteers for 6 months. The experimental data obtained in the work may reflect the result of NG priming with lipopolysaccharide and other Y. pestis antigens. The registered functional activation of NG by expression of tyrosine protein phosphatase probably indicates the formation of “immune memory” at the level of innate immunity cells under the influence of LPV, the functioning of which explains the development of a faster and more intense antigen-specific immune response to repeated introduction of the plague vaccine into the body.