评估离体细胞中中性粒细胞表型、脱颗粒强度、死亡和溶解的变化;葡萄球菌</i>菌血症

Aleksandr L. Kravtsov, Svetlana A. Bugorkova, Svetlana N. Klyueva, Tatyana P. Shmelkova, Vitaly A. Kozhevnikov
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引用次数: 0

摘要

介绍。目前,在体外菌血症模型的条件下研究金黄色葡萄球菌与人先天免疫细胞的相互作用是很重要的,但不仅仅是用先前从血液中分离的吞噬细胞进行实验。 目的:比较评估在添加金黄色葡萄球菌ATCC 6538 (209-P)活菌和灭菌后,明显健康的献血者全血标本中嗜金粒细胞表型、亲金脱颗粒强度、死亡和溶解中性粒细胞的变化。材料和方法。通过向全血(含肝素)中添加108至101 mc/ml剂量的微生物来模拟菌血症。采用微生物学方法测定血液在37℃(6小时)孵育不同时间点的杀菌效果。根据Lyse/No-Wash方案,采用流式细胞术进行血液白细胞免疫分型,测定中性粒细胞(NG)表面的嗜氮脱粒(CD63)、早期凋亡(CD95)和细胞粘附(CD62L)标志物的表达,并评估netosis分子触发因子FcᵧRIIIb (CD16)和酪氨酸蛋白磷酸酶(CD45)的表面表达密度。它是吞噬和吞噬过程中fcr介导的细胞信号的调节剂。根据romanovsky - giemsa . 结果。根据研究的表型参数,人血NG对活的和死的金黄色葡萄球菌的反应有显著差异。只有活的微生物才能触发nc的亲氮脱粒,并从培养2小时开始刺激大量具有CD95+表型的NG在血液中出现。此外,就CD45表达而言,活菌诱导吞噬细胞的功能重排是其两倍。它们诱导了NG上CD16表达密度的快速下降,并激活了血液中NG的裂解,其强度取决于初始微生物浓度。在超过105 mc/ml的浓度下孵育6小时后,流式细胞术检测到血液中存在脓毒症特征的低密度中性粒细胞(CD63+CD16low表型的低密度中性粒细胞),其细胞易于自发自溶(netosis)。结论。在离体模拟菌血症的条件下,评估了人类血液中性粒细胞在实施大型生物感染保护机制中的各种策略,并确定了利用所获得的信息识别葡萄球菌脓毒症高危个体的前景。
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Assessment of changes in the phenotype, intensity of degranulation, death and lysis of neutrophils in <i>ex vivo</i> modeling of <i>Staphylococcal</i> bacteremia
Introduction. At present, it is important to study the interaction of Staphylococcus aureus with human innate immunity cells under conditions of ex vivo bacteremia modeling, but not only in experiments with phagocytes previously isolated from the blood. Purpose: comparative assessment of changes in the phenotype, intensity of aurophilic degranulation, death and lysis of neutrophils in whole blood samples from apparently healthy donors following the addition of live and killed microbial cells of S. aureus ATCC 6538 (209-P). Materials and methods. Bacteremia was modeled by adding microbes to whole blood (with heparin) at doses ranging from 108 to 101 mc/ml. The bactericidal effect was determined at different time points of blood incubation at 37C (for 6 hours) by the microbiological method. The blood leukocyte immunophenotyping was performed using flow cytometry according to the Lyse/No-Wash protocol to determine the expression of markers of azurophilic degranulation (CD63), early apoptosis (CD95) on the surface of neutrophilic granulocytes (NG) and cell adhesion (CD62L), as well as to assess the surface expression density of the molecular trigger of netosis FcᵧRIIIb (CD16) and tyrosine protein phosphatase (CD45), which is a regulator of FcR-mediated cell signaling during phagocytosis and netosis. The presence of degenerative changes in NG was confirmed by microscopy in the analysis of blood smears stained according to RomanovskyGiemsa. Results. Significant differences were revealed in the response of human blood NG to live and killed S. aureus cells according to the studied phenotypic parameters. Only live microbes triggered azurophilic degranulation in NCs and stimulated, starting from 2 h incubation, the appearance of a large number of NG with the CD95+ phenotype in the blood. In addition, live bacteria induced in phagocytes twice as much functional rearrangement in terms of CD45 expression. They induced a rapid decrease in the density of CD16 expression on NG and activated NG lysis in the blood with an intensity depending on the initial microbial concentration. Following 6 h incubation at concentrations of more than 105 mc/ml, flow cytometry detected the presence in the blood of a population of low density neutrophils characteristic of sepsis (Low Density Neutrophils with the CD63+CD16low phenotype), whose cells are prone to spontaneous autolysis (netosis). Conclusion. Under the conditions of ex vivo modeling of bacteremia, various strategies of human blood neutrophils in the implementation of the mechanisms of protection of the macroorganism from infection were evaluated, and the prospects of using the obtained information to identify individuals at high risk of developing staphylococcal sepsis were determined.
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来源期刊
Zhurnal mikrobiologii, epidemiologii, i immunobiologii
Zhurnal mikrobiologii, epidemiologii, i immunobiologii Immunology and Microbiology-Immunology and Microbiology (miscellaneous)
CiteScore
1.40
自引率
0.00%
发文量
51
审稿时长
8 weeks
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