Sodium butyrate alleviates R97-116 peptide-induced myasthenia gravis in mice by improving the gut microbiota and modulating immune response.

IF 4.4 3区医学 Q2 IMMUNOLOGY

Journal of Inflammation-London Pub Date : 2023-11-03 DOI:10.1186/s12950-023-00363-w

Jing Sun, Juanjuan Chen, Qinfang Xie, Mengjiao Sun, Wenjing Zhang, Hongxia Wang, Ning Liu, Qi Wang, Manxia Wang

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引用次数: 0

Abstract

Fermented butyrate exhibits an anti-inflammatory response to maintain immune homeostasis within the gut. However, the effect and underlying mechanism of butyrate on myasthenia gravis (MG) remain unclear. The changes in the gut microbiota and fecal contents of SCFAs in MG patients were examined. R97-116 peptide was used to induce the experimental autoimmune myasthenia gravis (EAMG) mice and sodium butyrate (NaB) was gavaged to the EAMG mice. Gut microbiota, the frequency of Th1, Th17, Treg, Tfh, and B cells, the levels of IFN-γ, IL-17 A, IL-10, IL-21, and anti-R97-116 IgG, RNA-seq of total B cells in the spleen were explored by metagenomics, flow cytometry, ELISA, and transcriptomics. A significant reduction in SCFA-producing bacteria including Butyricimonas synergistica and functional modules including butyrate synthesis/production II was observed in MG patients and fecal SCFAs detection confirmed the increase. The EAMG mice were successfully constructed and NaB supplementation has changed the composition and function of the gut microbiota. The numbers of Th1, Th17, Tfh, and B cells were significantly increased while that of Treg cells was obviously decreased in EAMG mice compared with controls. Interestingly, NaB treatment has reduced the amounts of Th17, Tfh, and B cells but increased that of Treg cells. Accordingly, the levels of IL-17 A, IL-21, and IgG were increased while IL-10 was decreased in EAMG mice. However, NaB treatment reduced IL-17 A and IL-21 but increased that of IL-10. RNA-seq of B cells has revealed 4577 deferentially expressed genes (DEGs), in which 1218 DEGs were up-regulated while 3359 DEGs were down-regulated in NaB-treated EAMG mice. GO enrichment and KEGG pathway analysis unveiled that the function of these DEGs was mainly focused on immunoglobulin production, mitochondrial respiratory chain complex, ribosome, oxidative phosphorylation, and CNS diseases including amyotrophic lateral sclerosis. We have found that butyrate was significantly reduced in MG patients and NaB gavage could evidently improve MG symptoms in EAMG mice by changing the gut microbiota, regulating the immune response, and altering the gene expression and function of B cells, suggesting NaB might be a potential immunomodulatory supplement for MG drugs.

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丁酸钠通过改善肠道微生物群和调节免疫反应，减轻R97-116肽诱导的小鼠重症肌无力。

发酵丁酸盐表现出抗炎反应，以维持肠道内的免疫稳态。然而，丁酸盐对重症肌无力（MG）的作用及其潜在机制尚不清楚。观察了MG患者肠道微生物群和SCFAs粪便含量的变化。R97-116肽用于诱导实验性自身免疫性重症肌无力（EAMG）小鼠，丁酸钠（NaB）灌胃给EAMG小鼠。通过宏基因组学、流式细胞术、ELISA和转录组学研究了肠道微生物群、Th1、Th17、Treg、Tfh和B细胞的频率、IFN-γ、IL-17A、IL-10、IL-21和抗R97-116 IgG的水平以及脾脏中总B细胞的RNA-seq。在MG患者中观察到SCFA产生菌（包括丁酸单胞菌协同作用）和功能模块（包括丁酸合成/生产II）的显著减少，粪便SCFA检测证实了增加。EAMG小鼠成功构建，补充NaB改变了肠道微生物群的组成和功能。与对照组相比，EAMG小鼠的Th1、Th17、Tfh和B细胞数量显著增加，而Treg细胞数量明显减少。有趣的是，NaB处理降低了Th17、Tfh和B细胞的数量，但增加了Treg细胞的数量。因此，EAMG小鼠的IL-17A、IL-21和IgG水平升高，而IL-10水平降低。然而，NaB治疗降低了IL-17A和IL-21，但增加了IL-10。B细胞的RNA-seq揭示了4577个不同表达的基因（DEG），其中在NaB处理的EAMG小鼠中，1218个DEG上调，3359个DEG下调。GO富集和KEGG通路分析表明，这些DEG的功能主要集中在免疫球蛋白的产生、线粒体呼吸链复合体、核糖体、氧化磷酸化和中枢神经系统疾病，包括肌萎缩侧索硬化症。我们发现，丁酸盐在MG患者中显著减少，NaB灌胃可以通过改变肠道微生物群、调节免疫反应、改变B细胞的基因表达和功能来明显改善EAMG小鼠的MG症状，这表明NaB可能是MG药物的潜在免疫调节补充剂。

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来源期刊

Journal of Inflammation-London IMMUNOLOGY-

CiteScore

7.90

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Inflammation welcomes research submissions on all aspects of inflammation. The five classical symptoms of inflammation, namely redness (rubor), swelling (tumour), heat (calor), pain (dolor) and loss of function (functio laesa), are only part of the story. The term inflammation is taken to include the full range of underlying cellular and molecular mechanisms involved, not only in the production of the inflammatory responses but, more importantly in clinical terms, in the healing process as well. Thus the journal covers molecular, cellular, animal and clinical studies, and related aspects of pharmacology, such as anti-inflammatory drug development, trials and therapeutic developments. It also considers publication of negative findings. Journal of Inflammation aims to become the leading online journal on inflammation and, as online journals replace printed ones over the next decade, the main open access inflammation journal. Open access guarantees a larger audience, and thus impact, than any restricted access equivalent, and increasingly so, as the escalating costs of printed journals puts them outside University budgets. The unrestricted access to research findings in inflammation aids in promoting dynamic and productive dialogue between industrial and academic members of the inflammation research community, which plays such an important part in the development of future generations of anti-inflammatory therapies.