Study of phenotypic and cytotoxic properties of erythroid cells of the spleen under hematopoiesis-stimulating effects

Yulia Shevchenko, K. Nazarov, S. V. Sennikov
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Abstract

In recent years, research has revealed a wide variety of erythroid cell functions, including modulation of innate and adaptive immune responses. Anemic or hypoxic stress stimulates a physiological response in the form of stress erythropoiesis, aimed at increasing oxygen delivery to tissues. Stress erythropoiesis activates progenitor cells and uses mechanisms that differ from stationary bone marrow erythropoiesis. To consider the role of erythroid cells in the regulation of hematopoiesis, hematopoiesis-activating states were modeled: chemically induced hemolytic anemia, acute blood loss, hypoxia. A series of experiments was carried out on first-generation hybrid mice CBA C57Bl6. Isolation of erythroid cells was performed using magnetic separation for the CD71 marker. The stages of differentiation of erythroid cells were determined by the combination of expression of TER-119 and CD71 markers and direct light scattering parameters in the population of both CD45-positive and CD45-negative spleen cells. To study the immunoregulatory activity of erythroid cells, we investigated the mediated cytotoxicity of splenocytes against tumor cells of the mouse melanoma B78 line after cultivation with conditioned spleen media after various hematopoiesis-stimulating effects. With various hemopoiesis-stimulating effects, the quantitative and qualitative composition of the spleen cells is reorganized depending on the compensatory mechanism for restoring homeostasis. An analysis of the cellular composition of the spleen showed that under hematopoiesis-stimulating effects, a redistribution of populations with the CD45 marker occurs: during hypoxia, the number of CD45-negative cells sharply decreases and the number of CD45-positive cells increases. The population of basophilic erythroblasts is the least susceptible to quantitative changes under all hematopoiesis-stimulating effects. During hypoxia, the most noticeable change in the cellular composition of the spleen is observed due to the increased accumulation of CD45-positive erythroid cells in the spleen. Mediators of erythroid cells of the spleen of mice after hypoxia do not lead to an increase in the cytotoxic proapoptotic effect of splenocytes on tumor cells, in contrast to the erythroid cells of the normal spleen, spleen with anemia and blood loss. Thus, it is tissue hypoxia that is the process that not only stimulates erythropoiesis, but also leads to the maximum change in the suppressive properties of surrounding cells. We assume that the implementation of compensatory mechanisms under the studied hematopoiesis-stimulating effects is aimed at activating the mechanisms of innate immunity and local immunosuppression to prevent local inflammation, accumulate nutrients, and attract cellular elements to the focus of hematopoiesis to restore homeostatic functions.
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促造血作用下脾红细胞表型及细胞毒性的研究
近年来,研究揭示了红细胞的多种功能,包括先天和适应性免疫反应的调节。贫血或缺氧应激以应激性红细胞生成的形式刺激生理反应,目的是增加向组织的氧气输送。应激性红细胞生成激活祖细胞并使用不同于固定骨髓红细胞生成的机制。为了考虑红细胞在造血调节中的作用,我们模拟了造血激活状态:化学诱导的溶血性贫血、急性失血、缺氧。在第一代杂交小鼠CBA C57Bl6上进行了一系列实验。用磁分离方法分离红系细胞的CD71标记物。在cd45阳性和cd45阴性脾细胞群体中,结合TER-119和CD71标记物的表达和直接光散射参数来确定红细胞的分化阶段。为了研究红细胞的免疫调节活性,我们研究了脾细胞在各种造血刺激作用下对小鼠黑色素瘤B78细胞系肿瘤细胞的毒性作用。脾细胞具有多种造血刺激作用,其定量和定性组成根据恢复体内平衡的代偿机制进行重组。对脾脏细胞组成的分析表明,在造血刺激作用下,发生了CD45标记人群的重新分布:在缺氧期间,CD45阴性细胞数量急剧减少,CD45阳性细胞数量增加。在所有造血刺激作用下,嗜碱性红细胞的数量变化是最不敏感的。在缺氧期间,脾脏细胞组成的最显著变化是由于脾脏中cd45阳性红细胞的积累增加。小鼠缺氧后脾红细胞的介质不导致脾细胞对肿瘤细胞的细胞毒性促凋亡作用增强,与正常脾红细胞、贫血和失血的脾不同。因此,组织缺氧不仅是刺激红细胞生成的过程,也是导致周围细胞抑制特性发生最大变化的过程。我们认为,在造血刺激效应下,代偿机制的实施旨在激活先天免疫和局部免疫抑制机制,以预防局部炎症,积累营养物质,吸引细胞元素到造血中心,恢复稳态功能。
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来源期刊
Medical Immunology (Russia)
Medical Immunology (Russia) Medicine-Immunology and Allergy
CiteScore
0.70
自引率
0.00%
发文量
88
审稿时长
12 weeks
期刊介绍: The journal mission is to promote scientific achievements in fundamental and applied immunology to various medical fields, the publication of reviews, lectures, essays by leading domestic and foreign experts in the field of fundamental and experimental immunology, clinical immunology, allergology, immunodiagnostics and immunotherapy of infectious, allergy, autoimmune diseases and cancer.
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