Cardiopulmonary Institute (CPI), German Center for Lung Research (DZL), Justus Liebig University Giessen, Giessen, Germany.
Acta Physiol (Oxf). 2020 Sep;230(1):e13521. doi: 10.1111/apha.13521. Epub 2020 Jun 22.
The aim of the study was to investigate the role of cytochrome P450 (CYP) epoxygenase-derived epoxyeicosatrienoic acids (EETs) in sustained hypoxic pulmonary vasoconstriction (HPV).
Vasomotor responses of isolated mouse intrapulmonary arteries (IPAs) were assessed using wire myography. Key findings were verified by haemodynamic measurements in isolated perfused and ventilated mouse lungs.
Pharmacological inhibition of EET synthesis with MS-PPOH, application of the EET antagonist 14,15-EEZE or deficiency of CYP2J isoforms suppressed sustained HPV. In contrast, knockdown of EET-degrading soluble epoxide hydrolase or its inhibition with TPPU augmented sustained HPV almost twofold. All EET regioisomers elicited relaxation in IPAs pre-contracted with thromboxane mimetic U46619. However, in the presence of KCl-induced depolarization, 5,6-EET caused biphasic contraction in IPAs and elevation of pulmonary vascular tone in isolated lungs, whereas other regioisomers had no effect. In patch-clamp experiments, hypoxia elicited depolarization in pulmonary artery smooth muscle cells (PASMCs), and 5,6-EET evoked inward whole cell currents in PASMCs depolarized to the hypoxic level, but not at their resting membrane potential.
The EET pathway substantially contributes to sustained HPV in mouse pulmonary arteries. 5,6-EET specifically appears to be involved in HPV, as it is the only EET regioisomer able to elicit not only relaxation, but also sustained contraction in these vessels. 5,6-EET-induced pulmonary vasoconstriction is enabled by PASMC depolarization, which occurs in hypoxia. The discovery of the dual role of 5,6-EET in the regulation of pulmonary vascular tone may provide a basis for the development of novel therapeutic strategies for treatment of HPV-related diseases.
本研究旨在探讨细胞色素 P450(CYP)环氧合酶衍生的环氧二十碳三烯酸(EETs)在持续低氧性肺血管收缩(HPV)中的作用。
采用血管张力测定法检测离体小鼠肺内动脉(IPAs)的血管舒缩反应。通过离体灌注和通气小鼠肺的血流动力学测量来验证主要发现。
用 MS-PPOH 抑制 EET 合成、应用 EET 拮抗剂 14,15-EEZE 或 CYP2J 同工型缺乏可抑制持续的 HPV。相比之下,敲低 EET 降解可溶性环氧化物水解酶或用 TPPU 抑制其活性可使持续的 HPV 增强近两倍。所有 EET 差向异构体均可使 U46619 缩血管物质预收缩的 IPA 舒张。然而,在 KCl 诱导去极化的情况下,5,6-EET 可使 IPA 产生双相收缩,并使离体肺血管张力升高,而其他差向异构体则无此作用。在膜片钳实验中,低氧可使肺动脉平滑肌细胞(PASMCs)去极化,5,6-EET 可使去极化至低氧水平的 PASMCs产生内向全细胞电流,但在其静息膜电位时则无此作用。
EET 途径在小鼠肺血管中对持续的 HPV 有重要贡献。5,6-EET 似乎特别参与 HPV,因为它是唯一一种不仅能舒张、而且还能使这些血管持续收缩的 EET 差向异构体。5,6-EET 诱导的肺血管收缩是由 PASMCs 去极化所介导的,这种去极化发生在低氧时。发现 5,6-EET 在调节肺血管张力方面具有双重作用,这可能为开发治疗 HPV 相关疾病的新治疗策略提供依据。
