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重复社会挫败诱导的糖皮质激素抵抗的分子机制：微小RNA的作用

Molecular mechanisms of repeated social defeat-induced glucocorticoid resistance: Role of microRNA.

作者信息

Jung Seung Ho, Wang Yufen, Kim Taewan, Tarr Andrew, Reader Brenda, Powell Nicole, Sheridan John F

机构信息

Institute for Behavioral Medicine Research, The Ohio State University Wexner Medical Center, Columbus, OH 43210, United States; Division of Biosciences, College of Dentistry, The Ohio State University, Columbus, OH 43210, United States.

Institute for Behavioral Medicine Research, The Ohio State University Wexner Medical Center, Columbus, OH 43210, United States.

出版信息

Brain Behav Immun. 2015 Feb;44:195-206. doi: 10.1016/j.bbi.2014.09.015. Epub 2014 Oct 12.

DOI:10.1016/j.bbi.2014.09.015

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4275324/

Abstract

Glucocorticoid (GC) resistance is a severe problem associated with various inflammatory diseases. Previous studies have shown that repeated social stress induces GC resistance in innate immune cells, but the underlying molecular mechanisms have not been fully elucidated. Therefore, the purpose of this study was to examine potential underlying molecular mechanism(s) of repeated social defeat (RSD) stress on GC resistance in splenic macrophages. It was hypothesized that mRNA expression of receptors for GC and nuclear translocating-associated regulators in splenic macrophages would be affected by RSD, and that these changes would be associated with epigenetic modification. The data showed that the mRNA expression of GC and mineralocorticoid receptors were significantly decreased in splenic macrophages by RSD. RSD also induced a significantly decreased mRNA expression in FK506-binding protein 52 (FKBP52), consequently resulting in a significantly increased ratio of FKBP51 to FKBP52. Moreover, DNA methyltransferases 3a and 3b showed a significant decrease in their mRNA expression in the RSD group as did mRNA expression of histone deacetyltransferase 2. The RSD group also showed a significantly reduced quantity of methylated DNA in splenic macrophages. Based on microRNA (miRNA) profiling data, it was determined that RSD induced significantly increased expression of 9 different miRNAs that were predicted to interact with mRNAs of the GC receptor (6 miRNAs), mineralocorticoid receptor (3 miRNAs) and FKBP52 (2 miRNAs). Spearman correlation analysis revealed significantly strong correlations between the expression of 2 miRNAs and their target mRNA expression for GC receptors. Among these miRNAs, we verified direct effects of miRNA-29b and -340 overexpression on mRNA expression of GC receptors in L929 cells. The overexpression of miRNA-29b or -340 in L929 cells significantly reduced LPS-induced overexpression of GC receptors. In conclusion, this study provides evidence that epigenetic regulation, such as DNA methylation and miRNA expression, may play a role in the RSD-induced GC resistance that we have observed in splenic macrophages.

摘要

糖皮质激素（GC）抵抗是一个与多种炎症性疾病相关的严重问题。先前的研究表明，反复的社会应激会诱导先天免疫细胞产生GC抵抗，但潜在的分子机制尚未完全阐明。因此，本研究的目的是探讨反复社会挫败（RSD）应激对脾巨噬细胞GC抵抗的潜在分子机制。研究假设是，RSD会影响脾巨噬细胞中GC受体和核转运相关调节因子的mRNA表达，并且这些变化将与表观遗传修饰有关。数据显示，RSD使脾巨噬细胞中GC和盐皮质激素受体的mRNA表达显著降低。RSD还导致FK506结合蛋白52（FKBP52）的mRNA表达显著下降，从而导致FKBP51与FKBP52的比例显著增加。此外，DNA甲基转移酶3a和3b在RSD组中的mRNA表达显著下降，组蛋白去乙酰化酶2的mRNA表达也是如此。RSD组还显示脾巨噬细胞中甲基化DNA的数量显著减少。基于微小RNA（miRNA）谱数据，确定RSD诱导9种不同miRNA的表达显著增加，这些miRNA预计与GC受体（6种miRNA）、盐皮质激素受体（3种miRNA）和FKBP52（2种miRNA）的mRNA相互作用。Spearman相关性分析显示，2种miRNA的表达与其GC受体靶mRNA表达之间存在显著的强相关性。在这些miRNA中，我们验证了miRNA-29b和-340过表达对L929细胞中GC受体mRNA表达的直接影响。miRNA-29b或-340在L929细胞中的过表达显著降低了LPS诱导的GC受体过表达。总之，本研究提供了证据表明，DNA甲基化和miRNA表达等表观遗传调控可能在我们观察到的RSD诱导的脾巨噬细胞GC抵抗中发挥作用。