Luteolin ameliorates chronic stress-induced depressive-like behaviors in mice by promoting the Arginase-1+ microglial phenotype via a PPARγ-dependent mechanism.

IF 6.9 1区 医学 Q1 CHEMISTRY, MULTIDISCIPLINARY Acta Pharmacologica Sinica Pub Date : 2024-11-04 DOI:10.1038/s41401-024-01402-9
Nai-Jun Yuan, Wen-Jun Zhu, Qing-Yu Ma, Min-Yi Huang, Rou-Rou Huo, Kai-Jie She, Jun-Ping Pan, Ji-Gang Wang, Jia-Xu Chen
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Abstract

Accumulating evidence shows that neuroinflammation substantially contributes to the pathology of depression, a severe psychiatric disease with an increasing prevalence worldwide. Although modulating microglial phenotypes is recognized as a promising therapeutic strategy, effective treatments are still lacking. Previous studies have shown that luteolin (LUT) has anti-inflammatory effects and confers benefits on chronic stress-induced depression. In this study, we investigated the molecular mechanisms by which LUT regulates the functional phenotypes of microglia in mice with depressive-like behaviors. Mice were exposed to chronic restraint stress (CRS) for 7 weeks, and were administered LUT (10, 30, 40 mg· kg-1 ·day-1, i.g.) in the last 4 weeks. We showed that LUT administration significantly ameliorated depressive-like behaviors and decreased hippocampal inflammation. LUT administration induced pro-inflammatory microglia to undergo anti-inflammatory arginase (Arg)-1+ phenotypic polarization, which was associated with its antidepressant effects. Furthermore, we showed that LUT concentration-dependently increased the expression of PPARγ in LPS + ATP-treated microglia and the hippocampus of CRS-exposed mice, promoting the subsequent inhibition of the NLRP3 inflammasome. Molecular dynamics (MD) simulation and microscale thermophoresis (MST) analysis confirmed a direct interaction between LUT and peroxisome proliferator-activated receptor gamma (PPARγ). By using the PPARγ antagonist GW9662, we demonstrated that LUT-driven protection, both in vivo and in vitro, resulted from targeting PPARγ. First, LUT-induced Arg-1+ microglia were no longer detected when PPARγ was blocked. Next, LUT-mediated inhibition of the NLRP3 inflammasome and downregulation of pro-inflammatory cytokine production were reversed by the inhibition of PPARγ. Finally, the protective effects of LUT, which attenuated the microglial engulfment of synapses and prevented apparent synapse loss in the hippocampus of CRS-exposed mice, were eliminated by blocking PPARγ. In conclusion, this study showed that LUT ameliorates CRS-induced depressive-like behaviors by promoting the Arg-1+ microglial phenotype through a PPARγ-dependent mechanism, thereby alleviating microglial pro-inflammatory responses and reversing microglial phagocytosis-mediated synapse loss.

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木犀草素通过 PPARγ 依赖性机制促进精氨酸酶-1+小胶质细胞表型,从而改善慢性压力诱导的小鼠抑郁样行为。
越来越多的证据表明,神经炎症在很大程度上导致了抑郁症的病理变化,抑郁症是一种严重的精神疾病,在全球的发病率越来越高。尽管调节小胶质细胞表型被认为是一种很有前景的治疗策略,但目前仍缺乏有效的治疗方法。以往的研究表明,木犀草素(LUT)具有抗炎作用,并对慢性应激诱导的抑郁症有益。在这项研究中,我们探讨了木犀草素调节抑郁样行为小鼠小胶质细胞功能表型的分子机制。小鼠暴露于慢性束缚应激(CRS)7周,并在最后4周服用LUT(10、30、40毫克- kg-1 -day-1, i.g.)。我们的研究表明,LUT能明显改善抑郁样行为并减少海马炎症。LUT能诱导促炎性小胶质细胞发生抗炎性精氨酸酶(Arg)-1+表型极化,这与其抗抑郁作用有关。此外,我们还发现 LUT 浓度依赖性地增加了 LPS + ATP 处理的小胶质细胞和 CRS 暴露小鼠海马中 PPARγ 的表达,促进了随后对 NLRP3 炎性体的抑制。分子动力学(MD)模拟和微尺度热泳(MST)分析证实了LUT与过氧化物酶体增殖激活受体γ(PPARγ)之间的直接相互作用。通过使用 PPARγ 拮抗剂 GW9662,我们证明了 LUT 在体内和体外驱动的保护作用是通过靶向 PPARγ 实现的。首先,当 PPARγ 被阻断时,LUT 诱导的 Arg-1+ 小胶质细胞不再被检测到。其次,抑制 PPARγ 会逆转 LUT 介导的 NLRP3 炎性体抑制和促炎细胞因子产生的下调。最后,阻断 PPARγ 可消除 LUT 的保护作用,LUT 可减轻小胶质细胞对突触的吞噬并防止 CRS 暴露小鼠海马中明显的突触丢失。总之,本研究表明,LUT通过PPARγ依赖性机制促进Arg-1+小胶质细胞表型,从而减轻小胶质细胞促炎反应并逆转小胶质细胞吞噬介导的突触丢失,从而改善CRS诱导的抑郁样行为。
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来源期刊
Acta Pharmacologica Sinica
Acta Pharmacologica Sinica 医学-化学综合
CiteScore
15.10
自引率
2.40%
发文量
4365
审稿时长
2 months
期刊介绍: APS (Acta Pharmacologica Sinica) welcomes submissions from diverse areas of pharmacology and the life sciences. While we encourage contributions across a broad spectrum, topics of particular interest include, but are not limited to: anticancer pharmacology, cardiovascular and pulmonary pharmacology, clinical pharmacology, drug discovery, gastrointestinal and hepatic pharmacology, genitourinary, renal, and endocrine pharmacology, immunopharmacology and inflammation, molecular and cellular pharmacology, neuropharmacology, pharmaceutics, and pharmacokinetics. Join us in sharing your research and insights in pharmacology and the life sciences.
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