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新型三氮唑嘧啶衍生物对肺和血管张力中 H2S 产生的影响。

The Effects of Novel Triazolopyrimidine Derivatives on H2S Production in Lung and Vascular Tonus in Aorta.

机构信息

Department of Pharmacology, Faculty of Pharmacy, Ege University, Izmir, Turkey.

Department of Pharmaceutical Chemistry, Faculty of Pharmacy, Izmir Katip Celebi University, Izmir, Turkey.

出版信息

Pharmacology. 2023;108(6):530-539. doi: 10.1159/000533419. Epub 2023 Sep 11.

DOI:10.1159/000533419
PMID:37696255
Abstract

INTRODUCTION

Hydrogen sulfide (H2S), known as a third gasotransmitter, is a signaling molecule that plays a regulatory role in physiological and pathophysiological processes. Decreased H2S levels were reported in inflammatory respiratory diseases such as asthma, chronic obstructive pulmonary disease, and pulmonary hypertension. H2S donors or drugs that increase H2S have emerged as novel treatments for inflammatory respiratory diseases. We previously showed that resveratrol (RVT) causes vascular relaxation and antioxidant effects by inducing H2S production. In the current study, we synthesized a new molecule Cpd2, as an RVT analog. We examined the effect of Cpd2 and its precursor chalcone compound (Cpd1) on H2S formation under both healthy and oxidative stress conditions in the lung, as well as vascular relaxation in the aorta.

METHODS

Cpd2 synthesized from Cpd1 with microwaved in basic conditions. H2S formation was measured by H2S biosensor in the mice lungs under both healthy and pyrogallol-induced oxidative stress conditions in the presence/absence of H2S synthesis inhibitor aminooxyacetic acid (AOAA). The effect of compounds on vascular tonus is investigated in mice aorta by DMT myograph.

RESULTS

RVT and Cpd2 significantly increased l-cysteine (l-cys) induced-H2S formation in the lung homogenates of healthy mice, but Cpd1 did not. Superoxide anion generator pyrogallol caused a decrease in H2S levels in mice lungs and Cpd2 restored it. Inhibition of Cpd2-induced H2S formation by AOAA confirmed that Cpd2 increases endogenous H2S formation in both healthy and oxidative stress conditions. Furthermore, we found that both Cpd1 and Cpd2 (10-8-10-4 M) caused vascular relaxation in mice aorta.

DISCUSSION AND CONCLUSION

We found that Cpd2, a newly synthesized RVT analog, is an H2S-inducing molecule and vasorelaxant similar to RVT. Since H2S has antioxidant and anti-inflammatory effects, Cpd2 has a potential for the treatment of respiratory diseases where oxidative stress and decreased H2S levels are present.

摘要

简介

硫化氢(H2S),作为第三种气体递质,是一种在生理和病理生理过程中起调节作用的信号分子。在哮喘、慢性阻塞性肺疾病和肺动脉高压等炎症性呼吸系统疾病中,H2S 水平降低。H2S 供体或增加 H2S 的药物已成为炎症性呼吸系统疾病的新治疗方法。我们之前表明,白藜芦醇(RVT)通过诱导 H2S 产生引起血管松弛和抗氧化作用。在本研究中,我们合成了一种新的分子 Cpd2,作为 RVT 的类似物。我们研究了 Cpd2 及其前体查耳酮化合物(Cpd1)在健康和氧化应激条件下在肺部产生 H2S 的作用,以及在主动脉中的血管松弛作用。

方法

在碱性条件下用微波从 Cpd1 合成 Cpd2。在存在/不存在 H2S 合成抑制剂氨基氧乙酸(AOAA)的情况下,通过 H2S 生物传感器测量健康和焦儿茶酚诱导的氧化应激条件下小鼠肺部的 H2S 形成。用 DMT 肌描记器研究化合物对血管张力的影响。

结果

RVT 和 Cpd2 显著增加了健康小鼠肺匀浆中 l-半胱氨酸(l-cys)诱导的 H2S 形成,但 Cpd1 没有。超氧阴离子发生器焦儿茶酚导致小鼠肺部 H2S 水平降低,而 Cpd2 则恢复了 H2S 水平。AOAA 抑制 Cpd2 诱导的 H2S 形成证实 Cpd2 在健康和氧化应激条件下均增加内源性 H2S 形成。此外,我们发现 Cpd1 和 Cpd2(10-8-10-4 M)均引起小鼠主动脉的血管松弛。

讨论与结论

我们发现,新合成的 RVT 类似物 Cpd2 是一种诱导 H2S 产生的分子,具有与 RVT 相似的血管舒张作用。由于 H2S 具有抗氧化和抗炎作用,Cpd2 有可能用于治疗存在氧化应激和 H2S 水平降低的呼吸系统疾病。

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