Heterogeneity of NK-cells in pulmonary tuberculous granulomas, including association with HIV infection
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Published:2021-07-15
Issue:3
Volume:24
Page:363-372
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ISSN:1028-7221
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Container-title:Russian Journal of Immunology
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language:
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Short-container-title:Russian Journal of Immunology
Abstract
Interest in the study of cell population heterogeneity among immune system grows with advances in multicolor flow cytometry techniques. Natural killer cells are represented by several subpopulations. Their maturation is a continuous process that begins with CD27-CD11b--cells and ends with mature cells with the CD27-CD11b+-phenotype. Phthisiology is one of the areas for studying the NK-cell polymorphism due to the fact that the mechanism of prolonged persistence of M. tuberculosis in the human body is not fully understood. Moreover, there is increasing number of patients with infectious comorbidities, including the human immunodeficiency virus (HIV) infection. The aim of this study was to determine some subpopulations of NK cells in the patients with pulmonary tuberculous granuloma, as well as in the absence of a synergistic HIV infection.The study involved 46 people grouped in three cohorts. The 1st group included 24 practically healthy people, the 2nd group consisted of 12 patients with pulmonary tuberculous granuloma without clinical and laboratory signs of HIV infection, and the 3rd group was represented by 10 patients with pulmonary tuberculous granuloma infected with HIV. The causative agent of pulmonary tuberculosis in all patients was drug-resistant. All the patients with HIV infection had stage 4 disease. Immunological status was assessed by flow cytometry. The following cell populations were detected: CD45+CD3+CD19-, CD45+CD3-CD19+, CD45+CD3-CD16+CD56+, CD3+CD16+CD56+, CD45+CD3-CD8+, CD45+CD3-HLA-DR+, CD45+CD3-CD16+CD56+CD11b+. Leukocytosis and leukogram were determined with a 5 Diff Mythic 22 AL clinical analyzer (Cormay, Poland). Statistical studies of the data were performed in the Windows 10 operating environment (Microsoft Corp., USA); the computer program Statistica v. 12.5 (StatSoft, USA) was used. The normality of the data distribution was also evaluated. Kruskal–Wallis one-way analysis of variance (pk-w) was used as criterion for assessing differences between the compared groups at a significance level of differences p 0.017 (between three unrelated groups), as well as Wald–Wolfowitz test (pw-w) with a significance level of differences p 0.05. Factor analysis was performed.We have found that the presence of pulmonary tuberculous granuloma is accompanied by a decrease of NK-cells number by 33%, a two-fold decrease in the number of NKT-cells, a 34.3% decrease in the population of CD3-HLA-DR+-cells, and a 21.7% decrease in the number of CD3-CD16+CD56+CD11b+-cells. Coinfection with HIV in cases of pulmonary tuberculous granuloma was associated with a three-fold decrease in the leukocyte numbers, significant variability in lymphocyte counts, e.g., 3-fold decrease in NK-cell counts, with NK-cells expressing α-chain of the CD8 antigen decreased by 2.3 times; 6-fold drop of NKT-cell, CD3-HLA-DR+-cells decreased by 42.9%; 2.3-fold decline in CD3-CD16+CD56+CD11b+-cells. Decreased control of M. tuberculosis infection was observed both in patients with pulmonary tuberculous granuloma, and in presence of HIV infection as associated comorbidity.
Publisher
Russian Society of Immunology
Subject
Immunology,General Medicine
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