肠道特异性 H3R 信号调节小胶质细胞依赖性外周炎症的缓解

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.11.603031
K. Dürholz, M. Linnerbauer, Eva Schmid, H. Danzer, L. Lößlein, L. Amend, Leona Ehnes, M. Frech, V. Azizov, F. Schälter, A. Gessner, S. Lucas, T. Lesker, R. V. Taudte, Jörg Hofmann, Felix Beyer, H. Bootz-Maoz, Yasmin Reich, Hadar Romano, D. Mauro, R. Beckervordersandforth, Wei Xiang, A. Haghikia, C. Akdis, Francesco Ciccia, T. Bäuerle, K. Sarter, Till Strowig, N. Yissachar, G. Schett, V. Rothhammer, M. Zaiss
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摘要

据描述,类风湿性关节炎(RA)等慢性炎症性疾病会导致中枢神经系统(CNS)激活。人们对中枢神经系统抑制类风湿性关节炎外周炎症的环境因素知之甚少。在这里,我们将肠道微生物群衍生的组胺确定为此类因素。我们的研究表明,低水平的组胺能激活肠道神经系统,增加脊髓中抑制性神经递质的浓度,恢复小胶质细胞的平衡,从而减轻关节炎症。肠道中组胺 3 受体(H3R)的选择性信号传导是产生这种效果的关键,因为全身和鞘内应用组胺并未显示出效果。小胶质细胞耗竭或局部神经纤维的药物沉默会削弱口服 H3R 激动剂对关节炎的促进缓解作用。此外,治疗性补充 SCFA 丙酸盐也是提高小鼠和人类局部肠道组胺浓度的一种方法。因此,我们定义了肠道-中枢神经系统-关节轴途径,其中微生物群衍生的组胺通过中枢神经系统启动关节炎的缓解。图解摘要 肠道微生物群衍生的组胺通过 H3R 激活肠道神经元 局部肠道 H3R 激活诱导脊髓中的小胶质细胞向稳态转变 中枢神经系统控制的内皮渗漏减少可缓解滑膜炎症
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Gut-specific H3R signaling orchestrates microglia-dependent resolution of peripheral inflammation
Chronic inflammatory diseases, like rheumatoid arthritis (RA) have been described to cause central nervous system (CNS) activation. Less is known about environmental factors that enable the CNS to suppress peripheral inflammation in RA. Here, we identified gut microbiota-derived histamine as such factor. We show that low levels of histamine activate the enteric nervous system, increase inhibitory neurotransmitter concentrations in the spinal cord and restore homeostatic microglia, thereby reducing inflammation in the joints. Selective histamine 3 receptor (H3R) signaling in the intestine is critical for this effect, as systemic and intrathecal application did not show effects. Microglia depletion or pharmacological silencing of local nerve fibers impaired oral H3R agonist-induced pro-resolving effects on arthritis. Moreover, therapeutic supplementation of the SCFA propionate identified one way to expand local intestinal histamine concentrations in mice and humans. Thus, we define a gut-CNS-joint axis pathway where microbiota-derived histamine initiates the resolution of arthritis via the CNS. Graphical Abstract Gut microbiota-derived histamine activates enteric neurons via H3R Local intestinal H3R activation induces shift to homeostatic microglia in the spinal cord CNS controlled decrease in endothelial leakiness resolves synovial inflammation
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