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金雀异黄素通过抑制 FcεRI 信号通路抑制抗原诱导的肥大细胞活化。

Kamebakaurin Suppresses Antigen-Induced Mast Cell Activation by Inhibition of FcεRI Signaling Pathway.

机构信息

Department of Pharmacology, College of Pharmacy, Kinjo Gakuin University, Nagoya, Japan,

Department of Pharmacotherapeutics, Faculty of Pharmaceutical Sciences, Shonan University of Medical Sciences, Yokohama, Japan.

出版信息

Int Arch Allergy Immunol. 2024;185(9):836-847. doi: 10.1159/000536334. Epub 2024 May 24.

DOI:10.1159/000536334
PMID:38797160
Abstract

INTRODUCTION

Kamebakaurin is an active constituent of both Rabdosia japonica and Rabdosia excisa, which are utilized in Chinese traditional medicine for improving symptoms in patients with allergies. We investigated the molecular mechanisms of the anti-allergic effects of kamebakaurin using BMMCs.

METHODS

The degranulation ratio, histamine release, and the interleukin (IL)-4, leukotriene B4 (LTB4), and cysteinyl leukotriene productions on antigen-triggered BMMC were investigated. Additionally, the effects of kamebakaurin on signal transduction proteins were examined by Western blot and binding to the Syk and Lyn kinase domain was calculated. The effects of kamebakaurin on antigen-induced hyperpermeability were investigated using mouse model.

RESULTS

At 10 μm, kamebakaurin partially inhibited degranulation, histamine release, and IL-4 production. At 30 μm, kamebakaurin partially reduced LTB4 and cysteinyl leukotriene productions and suppressed degranulation, histamine release, and IL-4 production. Phosphorylation of both Syk Y519/520 and its downstream protein, Gab2, was reduced by kamebakaurin, and complete inhibition was observed with 30 μm kamebakaurin. In contrast, phosphorylation of Erk was only partially inhibited, even in the presence of 30 μm kamebakaurin. Syk Y519/520 is known to be auto-phosphorylated via intramolecular ATP present in its own ATP-binding site, and this auto-phosphorylation triggers degranulation, histamine release, and IL-4 production. Docking simulation study indicated kamebakaurin blocked ATP binding to the ATP-binding site in Syk. Therefore, inhibition of Syk auto-phosphorylation by kamebakaurin binding to the Syk ATP-binding site appeared to cause a reduction of histamine release and IL-4 production. Kamebakaurin inhibited antigen-induced vascular hyperpermeability in a dose-dependent fashion but did not reduce histamine-induced vascular hyperpermeability.

CONCLUSION

Kamebakaurin ameliorates allergic symptoms via inhibition of Syk phosphorylation; thus, kamebakaurin could be a lead compound for the new anti-allergic drug.

摘要

简介

花锚素是小花山荷叶和显脉旋覆花中的一种活性成分,在中国传统医学中用于改善过敏患者的症状。我们使用骨髓来源的嗜碱性粒细胞(BMMC)研究了花锚素的抗过敏作用的分子机制。

方法

检测花锚素对 BMMC 脱颗粒、组胺释放以及白细胞介素(IL)-4、白三烯 B4(LTB4)和半胱氨酰白三烯产生的影响。通过 Western blot 检测花锚素对信号转导蛋白的影响,并计算其与 Syk 和 Lyn 激酶结构域的结合。使用小鼠模型研究花锚素对抗原诱导的高通透性的影响。

结果

10 μM 的花锚素部分抑制脱颗粒、组胺释放和 IL-4 的产生。30 μM 的花锚素部分减少 LTB4 和半胱氨酰白三烯的产生,并抑制脱颗粒、组胺释放和 IL-4 的产生。花锚素降低 Syk Y519/520 的磷酸化及其下游蛋白 Gab2 的磷酸化,而 30 μM 的花锚素则完全抑制该作用。相反,ERK 的磷酸化仅部分被抑制,即使在 30 μM 的花锚素存在下也是如此。Syk Y519/520 已知通过自身 ATP 结合位点中的分子内 ATP 自动磷酸化,这种自动磷酸化触发脱颗粒、组胺释放和 IL-4 的产生。对接模拟研究表明花锚素阻止了 ATP 与 Syk 的 ATP 结合位点结合。因此,花锚素与 Syk 的 ATP 结合位点结合抑制 Syk 自动磷酸化,导致组胺释放和 IL-4 的产生减少。花锚素以剂量依赖的方式抑制抗原诱导的血管通透性增加,但不减少组胺诱导的血管通透性增加。

结论

花锚素通过抑制 Syk 磷酸化改善过敏症状;因此,花锚素可能成为新型抗过敏药物的先导化合物。

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