Modulating the sEH/EETs Axis Restrains Specialized Proresolving Mediator Impairment and Regulates T Cell Imbalance in Experimental Periodontitis

Henrique B. Abdalla, Luciano Puhl, Carla Alvarez Rivas, Yu-Chiao Wu, Paola Rojas, Carlos Antonio Trindade-da-Silva, Bruce D. Hammock, Krishna R. Maddipati, Mariana Q. S. Soares, Juliana T. Clemente-Napimoga, Alpdogan Kantarci, Marcelo H. Napimoga, Thomas E. Van Dyke
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Abstract Epoxyeicosatrienoic acids (EETs) and other epoxy fatty acids are short-acting lipids involved in resolution of inflammation. Their short half-life, due to its metabolism by soluble epoxide hydrolase (sEH), limits their effects. Specialized proresolving mediators (SPMs) are endogenous regulatory lipids insufficiently synthesized in uncontrolled and chronic inflammation. Using an experimental periodontitis model, we pharmacologically inhibited sEH, examining its impact on T cell activation and systemic SPM production. In humans, we analyzed sEH in the gingival tissue of periodontitis patients. Mice were treated with sEH inhibitor (sEHi) and/or EETs before ligature placement and treated for 14 d. Bone parameters were assessed by microcomputed tomography and methylene blue staining. Blood plasma metabololipidomics were carried out to quantify SPM levels. We also determined T cell activation by reverse transcription–quantitative PCR and flow cytometry in cervical lymph nodes. Human gingival samples were collected to analyze sEH using ELISA and electrophoresis. Data reveal that pharmacological sEHi abrogated bone resorption and preserved bone architecture. Metabololipidomics revealed that sEHi enhances lipoxin A4, lipoxin B4, resolvin E2, and resolvin D6. An increased percentage of regulatory T cells over Th17 was noted in sEHi-treated mice. Lastly, inflamed human gingival tissues presented higher levels and expression of sEH than did healthy gingivae, being positively correlated with periodontitis severity. Our findings indicate that sEHi preserves bone architecture and stimulates SPM production, associated with regulatory actions on T cells favoring resolution of inflammation. Because sEH is enhanced in human gingivae from patients with periodontitis and connected with disease severity, inhibition may prove to be an attractive target for managing osteolytic inflammatory diseases.
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调节 sEH/EETs 轴可抑制实验性牙周炎中的特化前溶解介质损伤并调节 T 细胞失衡
摘要 环二十碳三烯酸(EETs)和其他环氧脂肪酸是参与消炎的短效脂质。由于可溶性环氧化物水解酶(sEH)的代谢作用,它们的半衰期很短,从而限制了它们的作用。特化的促进炎症消退介质(SPMs)是一种在不受控制的慢性炎症中合成不足的内源性调节脂质。我们利用实验性牙周炎模型对 sEH 进行了药理抑制,研究了它对 T 细胞活化和全身 SPM 生成的影响。在人体中,我们分析了牙周炎患者牙龈组织中的 sEH。小鼠在结扎前接受sEH抑制剂(sEHi)和/或EETs治疗,治疗14天后,通过微计算机断层扫描和亚甲蓝染色评估骨质参数。血浆代谢脂质组学用于量化 SPM 水平。我们还通过逆转录定量 PCR 和流式细胞术测定了颈淋巴结中的 T 细胞活化情况。我们还采集了人类牙龈样本,利用 ELISA 和电泳分析 sEH。数据显示,药物 sEHi 可抑制骨吸收并保护骨结构。代谢脂质组学显示,sEHi 能增强脂质毒素 A4、脂质毒素 B4、溶解素 E2 和溶解素 D6。经 sEHi 处理的小鼠体内调节性 T 细胞的比例高于 Th17。最后,与健康牙龈相比,发炎的人类牙龈组织中 sEH 的水平和表达量更高,与牙周炎的严重程度呈正相关。我们的研究结果表明,sEHi 能保护骨结构,刺激 SPM 的产生,并对 T 细胞产生调节作用,有利于炎症的消退。由于 sEH 在牙周炎患者的人类牙龈中会增强,并与疾病的严重程度相关,因此抑制 sEH 可能被证明是治疗溶骨性炎症疾病的一个有吸引力的靶点。
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