抑制巨噬细胞 HDAC3 可通过 GBP5-NLRP3 通路改善右旋糖酐硫酸钠诱导的炎症性肠病。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-05-19 eCollection Date: 2024-01-01 DOI:10.7150/ijms.94592
Na Che, Yang Zhang, Shu Zhang, Xiangxi Kong, Ying Zhang, Shukun Wang, Zengqiang Yuan, Yajin Liao
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引用次数: 0

摘要

炎症性肠病(IBD)是一种慢性肠道炎症性疾病,其特点是免疫反应失调。据报道,HDAC3 是炎症中的表观遗传制动器,在巨噬细胞中发挥着关键作用。然而,它在 IBD 中的作用尚不清楚。在我们的研究中,我们发现 HDAC3 在 IBD 小鼠粘膜的 CX3CR1 阳性细胞中上调。在 CX3CR1 阳性细胞中条件性敲除(cKO)Hdac3 可减轻右旋糖酐硫酸钠(DSS)诱导的结肠炎的病情严重程度。此外,用 RGFP966 抑制 HDAC3 还能减轻 DSS 诱导的 IBD 组织损伤和炎症。RNA测序结果显示,Hdac3 cKO抑制了DSS诱导的细胞因子-细胞因子受体相互作用、补体和凝血级联、趋化因子信号转导以及细胞外基质受体相互作用等通路中基因的上调。我们还通过 RNA 测序发现,单核细胞中的鸟苷酸结合蛋白 5(GBP5)受 HDAC3 的转录调控。抑制 HDAC3 会降低 CX3CR1 阳性细胞(如巨噬细胞和小胶质细胞)中由干扰素-γ 诱导的 GBP5 表达的转录活性。过表达 HDAC3 则会上调 GBP5 报告的转录活性。最后,在巨噬细胞中条件性敲除 Hdac3(Hdac3 mKO)可减轻 DSS 诱导的结肠炎的病情严重程度。总之,抑制巨噬细胞中的HDAC3可通过调节GBP5-NLRP3轴改善结肠炎的疾病严重程度和炎症反应,为治疗结肠炎找到了一条新的治疗途径。
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Macrophagic HDAC3 inhibition ameliorates Dextran Sulfate Sodium induced inflammatory bowel disease through GBP5-NLRP3 pathway.

Inflammatory bowel disease (IBD) is a chronic inflammatory intestinal disease, characterized by dysregulated immune response. HDAC3 is reported to be an epigenetic brake in inflammation, playing critical roles in macrophages. However, its role in IBD is unclear. In our study, we found HDAC3 was upregulated in CX3CR1-positive cells in the mucosa from IBD mice. Conditional knockout (cKO) of Hdac3 in CX3CR1 positive cells attenuated the disease severity of Dextran Sulfate Sodium (DSS)-induced colitis. In addition, inhibition of HDAC3 with RGFP966 could also alleviate the DSS-induced tissue injury and inflammation in IBD. The RNA sequencing results revealed that Hdac3 cKO restrained DSS-induced upregulation of genes in the pathways of cytokine-cytokine receptor interaction, complement and coagulation cascades, chemokine signaling, and extracellular matrix receptor interaction. We also identified that Guanylate-Binding Protein 5 (GBP5) was transcriptionally regulated by HDAC3 in monocytes by RNA sequencing. Inhibition of HDAC3 resulted in decreased transcriptional activity of interferon-gamma-induced expression of GBP5 in CX3CR1-positive cells, such as macrophages and microglia. Overexpression of HDAC3 upregulated the transcriptional activity of GBP5 reporter. Lastly, conditional knockout of Hdac3 in macrophages (Hdac3 mKO) attenuated the disease severity of DSS-induced colitis. In conclusion, inhibition of HDAC3 in macrophages could ameliorate the disease severity and inflammatory response in colitis by regulating GBP5-NLRP3 axis, identifying a new therapeutic avenue for the treatment of colitis.

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