小胶质细胞
败血症
海马体
医学
穿孔
炎症
整合素αM
表型
内科学
内分泌学
病理
药理学
免疫学
生物
基因
生物化学
受体
材料科学
冲孔
冶金
作者
Monique Michels,Mariane Abatti,Andriele Vieira,Pricila Ávila,Amanda Indalécio Goulart,Heloisa Borges,Emily Córneo,Diogo Dominguini,Tatiana Barichello,Felipe Dal‐Pizzol
出处
期刊:Clinical Science
[Portland Press]
日期:2020-03-27
卷期号:134 (7): 765-776
被引量:25
摘要
Abstract Background: In order to modulate microglial phenotypes in vivo, M1 microglia were depleted by administration of gadolinium chloride and the expression of M2 microglia was induced by IL-4 administration in an animal model of sepsis to better characterize the role of microglial phenotypes in sepsis-induced brain dysfunction. Methods: Wistar rats were submitted to sham or cecal ligation and perforation (CLP) and treated with IL-4 or GdCl3. Animals were submitted to behavioral tests 10 days after surgery. In a separated cohort of animals at 24 h, 3 and 10 days after surgery, hippocampus was removed and cytokine levels, M1/M2 markers and CKIP-1 levels were determined. Results: Modulation of microglia by IL-4 and GdCl3 was associated with an improvement in long-term cognitive impairment. When treated with IL-4 and GdCl3, the reduction of pro-inflammatory cytokines was apparent in almost all analyzed time points. Additionally, CD11b and iNOS were increased after CLP at all time points, and both IL-4 and GdCl3 treatments were able to reverse this. There was a significant decrease in CD11b gene expression in the CLP+GdCl3 group. IL-4 treatment was able to decrease iNOS expression after sepsis. Furthermore, there was an increase of CKIP-1 in the hippocampus of GdCl3 and IL-4 treated animals 10 days after CLP induction. Conclusions: GdCl3 and IL-4 are able to manipulate microglial phenotype in an animal models of sepsis, by increasing the polarization toward an M2 phenotype IL-4 and GdCl3 treatment was associated with decreased brain inflammation and functional recovery.
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