Brd4 expression in CD4 T cells and in microglia promotes neuroinflammation in experimental autoimmune encephalomyelitis.

IF 10.1 1区医学 Q1 IMMUNOLOGY

Journal of Neuroinflammation Pub Date : 2025-06-02 DOI:10.1186/s12974-025-03449-9

Anup Dey, Matthew Butcher, Anne Gegonne, Ryoji Yagi, Keita Saeki, Eunju Lee, Dinah S Singer, Jinfang Zhu, Keiko Ozato

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Abstract

Microglia are resident innate immune cells in the central nervous system (CNS) that provides anti-microbial protection but also promote neuroinflammation. BRD4 is a chromatin reader that binds to acetylated histones and directs transcription of numerous genes. However, it is unknown whether and how BRD4 regulates microglia function. We addressed the role of microglia and BRD4 in a neuroinflammatory disease, experimental autoimmune encephalomyelitis (EAE), a mouse model for multiple sclerosis. It was reported earlier that in EAE, upon initial T cell activation in the peripheral lymphoid organs, CD4⁺ T cells migrate to CNS and are reactivated by resident or migratory antigen presenting cells resulting in full manifestation of EAE (Rossi and Constantin, Front Immunol 7:506, 2016), (Plastini et al., Front Cell Neurosci 14:269, 2020). Using conditional deletion of Brd4 in CD4 T cells, we reveal that BRD4 regulates T helper cell differentiation and promotes T cell migration to CNS resulting in EAE. It remained unclear whether resident microglia are capable of reactivating migrating T cells to the CNS and if BRD4 plays a role in the process. To determine the role of microglial BRD4 in EAE, we constructed conditional knockout mice lacking Brd4 (Brd4cKO) in microglia. RNA-seq analysis showed that Brd4 deletion led to the downregulation of many microglia genes in both naive and EAE conditions. Consequently, Brd4cKO mice had markedly reduced EAE pathology, namely reduced paralysis, absence of axonal demyelination and inhibited expression of inflammatory cytokines. In vehicle treated mice (vehicle) abundant number of T cells were found to be near microglia that may lead to T cell- microglia interaction and T cell reactivation. In contrast, the number of T cells detected in the CNS of Brd4cKO mice was much fewer. This may lead to reduced T cell- microglia interaction, failure of T cells to get reactivated and hence failed to achieve full manifestation of EAE. These results demonstrate that microglia are critically involved in EAE disease progression for which BRD4 is essential. In summary, BRD4 directs transcription of genes defining microglia function. By so doing BRD4 promotes demyelination and neuroinflammation to exacerbate EAE.

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Brd4在CD4 T细胞和小胶质细胞中的表达促进实验性自身免疫性脑脊髓炎的神经炎症。

小胶质细胞是中枢神经系统（CNS）中的固有免疫细胞，提供抗微生物保护，但也促进神经炎症。BRD4是一种染色质读取器，与乙酰化组蛋白结合并指导许多基因的转录。然而，BRD4是否以及如何调节小胶质细胞功能尚不清楚。我们研究了小胶质细胞和BRD4在神经炎性疾病——实验性自身免疫性脑脊髓炎（EAE）——多发性硬化症小鼠模型中的作用。此前有报道称，在EAE中，当T细胞在外周血淋巴器官初始活化时，CD4+ T细胞迁移到中枢神经系统，并被常驻或迁移的抗原提呈细胞重新激活，导致EAE的完全表现（Rossi和Constantin， Front Immunol:506, 2016），（Plastini等，Front cell Neurosci:269, 2020）。通过条件删除CD4 T细胞中的Brd4，我们发现Brd4调节T辅助细胞分化并促进T细胞向中枢神经系统迁移导致EAE。目前尚不清楚常驻小胶质细胞是否能够重新激活迁移到中枢神经系统的T细胞，以及BRD4是否在这一过程中发挥作用。为了确定小胶质细胞BRD4在EAE中的作用，我们构建了小胶质细胞缺乏BRD4的条件敲除小鼠（Brd4cKO）。RNA-seq分析显示，Brd4缺失导致幼稚和EAE条件下许多小胶质细胞基因下调。因此，Brd4cKO小鼠明显减轻了EAE病理，即减少了瘫痪，没有轴突脱髓鞘，抑制了炎症细胞因子的表达。在小鼠体内发现大量的T细胞靠近小胶质细胞，这可能导致T细胞-小胶质细胞相互作用和T细胞再活化。相比之下，Brd4cKO小鼠的中枢神经系统中检测到的T细胞数量要少得多。这可能导致T细胞-小胶质细胞相互作用减少，T细胞无法重新激活，从而无法实现EAE的充分表现。这些结果表明，小胶质细胞在EAE疾病进展中起关键作用，而BRD4在这一过程中至关重要。总之，BRD4指导决定小胶质细胞功能的基因的转录。因此，BRD4促进脱髓鞘和神经炎症，从而加剧EAE。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Neuroinflammation 医学-神经科学

CiteScore

15.90

自引率

3.20%

发文量

276

审稿时长

1 months

期刊介绍： The Journal of Neuroinflammation is a peer-reviewed, open access publication that emphasizes the interaction between the immune system, particularly the innate immune system, and the nervous system. It covers various aspects, including the involvement of CNS immune mediators like microglia and astrocytes, the cytokines and chemokines they produce, and the influence of peripheral neuro-immune interactions, T cells, monocytes, complement proteins, acute phase proteins, oxidative injury, and related molecular processes. Neuroinflammation is a rapidly expanding field that has significantly enhanced our knowledge of chronic neurological diseases. It attracts researchers from diverse disciplines such as pathology, biochemistry, molecular biology, genetics, clinical medicine, and epidemiology. Substantial contributions to this field have been made through studies involving populations, patients, postmortem tissues, animal models, and in vitro systems. The Journal of Neuroinflammation consolidates research that centers around common pathogenic processes. It serves as a platform for integrative reviews and commentaries in this field.