The effect of zofenopril on the cardiovascular system of spontaneously hypertensive rats treated with the ACE2 inhibitor MLN-4760.

IF 4.3 2区 生物学 Q1 BIOLOGY Biological Research Pub Date : 2023-10-25 DOI:10.1186/s40659-023-00466-x
Sona Cacanyiova, Martina Cebova, Fedor Simko, Tomas Baka, Iveta Bernatova, Michal Kluknavsky, Stefan Zorad, Katarina Krskova, Ezgi Shaman, Anna Zemancikova, Andrej Barta, Basak G Aydemir, Andrea Berenyiova
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Abstract

Background: Angiotensin converting enzyme 2 (ACE2) plays a crucial role in the infection cycle of SARS-CoV-2 responsible for formation of COVID-19 pandemic. In the cardiovascular system, the virus enters the cells by binding to the transmembrane form of ACE2 causing detrimental effects especially in individuals with developed hypertension or heart disease. Zofenopril, a H2S-releasing angiotensin-converting enzyme inhibitor (ACEI), has been shown to be effective in the treatment of patients with essential hypertension; however, in conditions of ACE2 inhibition its potential beneficial effect has not been investigated yet. Therefore, the aim of the study was to determine the effect of zofenopril on the cardiovascular system of spontaneously hypertensive rats, an animal model of human essential hypertension and heart failure, under conditions of ACE2 inhibition induced by the administration of the specific inhibitor MLN-4760 (MLN).

Results: Zofenopril reduced MLN-increased visceral fat to body weight ratio although no changes in systolic blood pressure were recorded. Zofenopril administration resulted in a favorable increase in left ventricle ejection fraction and improvement of diastolic function regardless of ACE2 inhibition, which was associated with increased H2S levels in plasma and heart tissue. Similarly, the acute hypotensive responses induced by acetylcholine, L-NAME (NOsynthase inhibitor) and captopril (ACEI) were comparable after zofenopril administration independently from ACE2 inhibition. Although simultaneous treatment with zofenopril and MLN led to increased thoracic aorta vasorelaxation, zofenopril increased the NO component equally regardless of MLN treatment, which was associated with increased NO-synthase activity in aorta and left ventricle. Moreover, unlike in control rats, the endogenous H2S participated in maintaining of aortic endothelial function in MLN-treated rats and the treatment with zofenopril had no impact on this effect.

Conclusions: Zofenopril treatment reduced MLN-induced adiposity and improved cardiac function regardless of ACE2 inhibition. Although the concomitant MLN and zofenopril treatment increased thoracic aorta vasorelaxation capacity, zofenopril increased the participation of H2S and NO in the maintenance of endothelial function independently from ACE2 inhibition. Our results confirmed that the beneficial effects of zofenopril were not affected by ACE2 inhibition, moreover, we assume that ACE2 inhibition itself can lead to the activation of cardiovascular compensatory mechanisms associated with Mas receptor, nitrous and sulfide signaling.

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唑非普利对自发性高血压大鼠用ACE2抑制剂MLN-4760治疗后心血管系统的影响。
背景:血管紧张素转换酶2(ACE2)在导致新冠肺炎大流行的SARS-CoV-2感染周期中起着至关重要的作用。在心血管系统中,病毒通过与跨膜形式的ACE2结合进入细胞,造成有害影响,尤其是对患有高血压或心脏病的人。Zofenopril是一种释放H2S的血管紧张素转换酶抑制剂(ACEI),已被证明对原发性高血压患者有效;然而,在抑制ACE2的条件下,其潜在的有益作用尚未得到研究。因此,本研究的目的是确定zofenopril对自发性高血压大鼠(一种人类原发性高血压和心力衰竭的动物模型)心血管系统的影响,结果:佐芬诺普利降低了MLN,增加了内脏脂肪与体重的比值,但收缩压没有变化。无论ACE2抑制与血浆和心脏组织中H2S水平升高有关,唑芬普利给药可使左心室射血分数有利增加,舒张功能改善。类似地,乙酰胆碱、L-NAME(一氧化氮合酶抑制剂)和卡托普利(ACEI)诱导的急性降压反应在给予唑芬普利后与ACE2抑制无关,具有可比性。尽管佐芬诺普利和MLN同时治疗会增加胸主动脉血管舒张,但无论MLN治疗如何,佐芬诺普里都会同样增加NO成分,这与主动脉和左心室中NO合酶活性的增加有关。此外,与对照大鼠不同,MLN治疗大鼠的内源性H2S参与了主动脉内皮功能的维持,而唑芬普利治疗对这种作用没有影响。结论:无论ACE2是否受到抑制,唑芬普利治疗都能减少MLN诱导的肥胖并改善心功能。尽管MLN和唑芬普利联合治疗增加了胸主动脉血管舒张能力,但唑芬普利增加了H2S和NO在维持内皮功能中的参与,与ACE2抑制无关。我们的研究结果证实,zofenopril的有益作用不受ACE2抑制的影响,此外,我们认为ACE2抑制本身可以导致与Mas受体、亚硝酸和硫化物信号相关的心血管代偿机制的激活。
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来源期刊
Biological Research
Biological Research 生物-生物学
CiteScore
10.10
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: Biological Research is an open access, peer-reviewed journal that encompasses diverse fields of experimental biology, such as biochemistry, bioinformatics, biotechnology, cell biology, cancer, chemical biology, developmental biology, evolutionary biology, genetics, genomics, immunology, marine biology, microbiology, molecular biology, neuroscience, plant biology, physiology, stem cell research, structural biology and systems biology.
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