Медицинская иммунология (Jul 2024)

Changes in the cytokine response in the hypothlamus of animals under the influence of chronic social stress: RNAseq data

  • A. G. Galyamina,
  • I. L. Kovalenko,
  • D. A. Smagin,
  • N. A. Popova

DOI
https://doi.org/10.15789/1563-0625-CIT-16769
Journal volume & issue
Vol. 26, no. 4
pp. 677 – 684

Abstract

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It is known that chronic social stress leads to immunity disorders in humans and experimental animals. It has been shown that the effect of stress is also manifested in changes in the level of expression of genes involved in the functioning of various physiological systems in the brain of mice, in particular, in the hypothalamus. It was noted that in stressed animals, genes involved in the processes of carcinogenesis and apoptosis change their expression, and in animals without signs of developing a malignant process, but under conditions conducive to tumor growth. In this regard, we used the RNA-seq method to study the expression of cytokine response genes in the hypothalamus of male mice under the influence of chronic social stress caused by repeated experience of defeats in intermale confrontations, compared with control individuals. Multidirectional changes in the expression of cytokine genes, their receptors and genes performing a regulatory function were detected (IL17d, IL18, IL33, Csf1r, Csf2ra, IL11ra1, IL13ra1, IL2ra, IL3ra, IL5ra, Lifr, Cish, IL4i1, Irf1, Irf5, Irf9, Jak2, Socs3, Stat3, Tgfb1, Tlr3). Thus, it has been shown that changes in the cytokine response in the brain under the influence of stress occur at the level of changes in gene expression. In this case, we should not talk about the activation of the system or a decrease in its activity, but about the disruption of its functioning. Next, we analyzed the correlations between the level of expression of genes of the cytokine system and the main genes of carcinogenesis and apoptosis that we studied earlier (Akt1, Bag6, Foxp4, Mapk3, Mapk8, Nol3, Pdcd10, Xiap). The Akt1, Jak2, Stat3 genes were identified, for which the maximum number of correlations was found, moreover, negative correlations were most characteristic of Jak2, and positive correlations were most characteristic of Stat3 and Akt1. In addition, protein-protein interactions between genes of carcinogenesis and apoptosis and genes of the cytokine system were analyzed using the String database in mice under chronic social stress. It was confirmed the key role of these genes in the development of dysfunction of cytokines in the brain.

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