通过靶向ADK抑制小胶质细胞P2X7R/TLR4介导的神经炎症,Hyperibone J可发挥抗抑郁作用。

Ting Li, Yawei Li, Jinhu Chen, Miaomiao Nan, Xin Zhou, Lifang Yang, Wenjun Xu, Chao Zhang, Lingyi Kong
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引用次数: 0

摘要

简介金丝桃的抗抑郁特性众所周知。金丝桃花中的主要成分金丝桃酮 J 具有体外抗炎作用。然而,金丝桃酮 J 的抗抑郁作用和机制仍有待阐明。腺苷激酶(ADK)在癫痫和抑郁症中上调,并被认为与促进神经炎症有关:本研究旨在探讨高血脂素 J 对神经炎症介导的抑郁症的影响及其机制:本研究采用了急性和慢性体内抑郁模型,以及利用BV-2小胶质细胞的体外LPS诱导抑郁模型。通过行为实验评估了金丝桃酮 J 的体内抗抑郁功效。利用RNA-seq、Western blot、qPCR和ELISA等技术阐明了Hyperibone J的直接靶点和作用机制:结果:与模型组相比,Hyperibone J组的抑郁样行为明显减轻。此外,Hyperibone J还减轻了海马神经炎症和神经元损伤。RNA-seq表明,Hyperibone J主要影响炎症相关通路。体外实验显示,Hyperibone J 逆转了 LPS 诱导的炎症因子的过度表达和释放。网络药理学和各种分子生物学实验显示,Hyperibone J 与 ADK 的 ASN-312 位点的潜在结合降低了 ADK 的稳定性和蛋白表达。机理研究发现,Hyperibone J 可抑制 ADK/ATP/P2X7R/Caspase-1 介导的 IL-1β 的成熟和释放。研究还发现,Tlr4的表达与小鼠的抑郁样行为之间存在明显的相关性。金丝桃酮 J 下调了 ADK,抑制了 Tlr4 的转录,进而降低了 NF-κB 的磷酸化以及随后 Nlrp3、Il-1b、Tnf 和 Il-6 的转录:结论:Hyperibone J通过与小胶质细胞中的ADK结合,减少其表达,从而抑制ATP/P2X7R/Caspase-1和TLR4/NF-κB途径,发挥抗神经炎和抗抑郁作用。这项研究为金丝桃的治疗潜力提供了实验证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hyperibone J exerts antidepressant effects by targeting ADK to inhibit microglial P2X7R/TLR4-mediated neuroinflammation.

Introduction: The antidepressant properties of Hypericum species are known. Hyperibone J, a principal component found in the flowers of Hypericum bellum, exhibited in vitro anti-inflammatory effects. However, the antidepressant effects and mechanisms of Hyperibone J remain to be elucidated. Adenosine kinase (ADK) is upregulated in epilepsy and depression and has been implicated in promoting neuroinflammation.

Objectives: This study aimed to explore the impact of Hyperibone J on neuroinflammation-mediated depression and the mechanism underlying this impact.

Methods: This study employed acute and chronic in vivo depression models and an in vitro LPS-induced depression model using BV-2 microglia. The in vivo antidepressant efficacy of Hyperibone J was assessed through behavioral assays. Techniques such as RNA-seq, western blot, qPCR and ELISA were utilized to elucidate the direct target and mechanism of action of Hyperibone J.

Results: Compared with the model group, depression-like behaviors were significantly alleviated in the Hyperibone J group. Furthermore, Hyperibone J mitigated hippocampal neuroinflammation and neuronal damage. RNA-seq suggested that Hyperibone J predominantly influenced inflammation-related pathways. In vitro experiments revealed that Hyperibone J reversed the LPS-induced overexpression and release of inflammatory factors. Network pharmacology and various molecular biology experiments revealed that the potential binding of Hyperibone J at the ASN-312 site of ADK diminished the stability and protein expression of ADK. Mechanistic studies revealed that Hyperibone J attenuated the ADK/ATP/P2X7R/Caspase-1-mediated maturation and release of IL-1β. The study also revealed a significant correlation between Tlr4 expression and depression-like behaviors in mice. Hyperibone J downregulated ADK, inhibiting Tlr4 transcription, which in turn reduced the phosphorylation of NF-κB and the subsequent transcription of Nlrp3, Il-1b, Tnf, and Il-6.

Conclusion: Hyperibone J exerted antineuroinflammatory and antidepressant effects by binding to ADK in microglia, reducing its expression and thereby inhibiting the ATP/P2X7R/Caspase-1 and TLR4/NF-κB pathways. This study provides experimental evidence for the therapeutic potential of Hypericum bellum.

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