Pulegone Prevents Hypertension through Activation of Muscarinic Receptors and Cyclooxygenase Pathway in L-NAME-Induced Hypertensive Rats.

IF 3.4 4区医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

Cardiovascular Therapeutics Pub Date : 2023-01-01 DOI:10.1155/2023/8166840

Muryam Abdul Razzaq, Waqas Younis, Muhammad Nasir Hayat Malik, Tariq G Alsahli, Alamgeer, Shah Jahan, Roma Ehsan, Arquimedes Gasparotto Junior, Asifa Bashir

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引用次数: 3

Abstract

The current study was designed to determine pulegone's antihypertensive and vasoprotective activity in L-NAME-induced hypertensive rats. Firstly, the hypotensive dose-response relationship of pulegone was evaluated in normotensive anesthetized rats using the invasive method. Secondly, the mechanism involved in hypotensive activity was determined in the presence of pharmacological drugs such as atropine/muscarinic receptor blocker (1 mg/kg), L-NAME/NOS inhibitor (20 mg/kg), and indomethacin/COX inhibitor (5 mg/kg) in anesthetized rats. Furthermore, studies were carried out to assess the preventive effect of pulegone in L-NAME-induced hypertensive rats. Hypertension was induced in rats by administering L-NAME (40 mg/kg) orally for 28 days. Rats were divided into six groups which were treated orally with tween 80 (placebo), captopril (10 mg/kg), and different doses of pulegone (20 mg/kg, 40 mg/kg, and 80 mg/kg). Blood pressure, urine volume, sodium, and body weight were monitored weekly. After 28 days, the effect of pulegone on lipid profile, hepatic markers, antioxidant enzymes, and nitric oxide was estimated from the serum of treated rats. Moreover, plasma mRNA expression of eNOS, ACE, ICAM1, and EDN1 was measured using real-time PCR. Results show that pulegone dose-dependently decreased blood pressure and heart rate in normotensive rats, with the highest effect at 30 mg/kg/i.v. The hypotensive effect of pulegone was reduced in the presence of atropine and indomethacin, whereas L-NAME did not change its hypotensive effect. Concurrent treatment with pulegone for four weeks in L-NAME-treated rats caused a reduction in both systolic blood pressure and heart rate, reversed the reduced levels of serum nitric oxide (NO), and ameliorated lipid profile and oxidative stress markers. Treatment with pulegone also improved the vascular response to acetylcholine. Plasma mRNA expression of eNOS was reduced, whereas ACE, ICAM1, and EDN1 levels were high in the L-NAME group, which was facilitated by pulegone treatment. To conclude, pulegone prevented L-NAME-induced hypertension by demonstrating a hypotensive effect through muscarinic receptors and cyclooxygenase pathway, indicating its use as a potential candidate in managing hypertension.

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在l - name诱导的高血压大鼠中，普利酮通过激活毒蕈碱受体和环氧化酶途径预防高血压。

本研究旨在确定普列酮对l - name诱导的高血压大鼠的降压和血管保护作用。首先，采用有创法评价普乐酮在正常血压麻醉大鼠体内的降压量效关系。其次，确定麻醉大鼠在阿托品/毒碱受体阻滞剂(1mg /kg)、L-NAME/NOS抑制剂(20mg /kg)、吲哚美辛/COX抑制剂(5mg /kg)等药物作用下的降血压作用机制。进一步研究了普立酮对l - name诱导的高血压大鼠的预防作用。用L-NAME (40 mg/kg)灌胃28 d诱导大鼠高血压。将大鼠分为6组，分别口服吐温80(安慰剂)、卡托普利(10 mg/kg)和不同剂量的普列酮(20 mg/kg、40 mg/kg和80 mg/kg)。每周监测血压、尿量、钠和体重。28 d后，从给药大鼠血清中测定普乐酮对血脂、肝脏标志物、抗氧化酶和一氧化氮的影响。此外，采用实时荧光定量PCR检测血浆eNOS、ACE、ICAM1和EDN1 mRNA的表达。结果表明，普立甘具有剂量依赖性，能降低正常血压大鼠的血压和心率，其中以30 mg/kg/ ivv效果最好。在阿托品和吲哚美辛的存在下，普列酮的降压作用减弱，而L-NAME不改变其降压作用。在l - name治疗的大鼠中，与普列酮同时治疗四周，可以降低收缩压和心率，逆转血清一氧化氮(NO)的降低水平，改善血脂和氧化应激标志物。普列酮治疗也改善了血管对乙酰胆碱的反应。L-NAME组血浆eNOS mRNA表达降低，而ACE、ICAM1和EDN1水平升高，这与普列酮治疗有关。综上所述，普莱酮通过毒蕈碱受体和环加氧酶途径显示出降压作用，从而预防l - name诱导的高血压，表明其作为治疗高血压的潜在候选药物。

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来源期刊

Cardiovascular Therapeutics 医学-心血管系统

CiteScore

5.60

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Cardiovascular Therapeutics (formerly Cardiovascular Drug Reviews) is a peer-reviewed, Open Access journal that publishes original research and review articles focusing on cardiovascular and clinical pharmacology, as well as clinical trials of new cardiovascular therapies. Articles on translational research, pharmacogenomics and personalized medicine, device, gene and cell therapies, and pharmacoepidemiology are also encouraged. Subject areas include (but are by no means limited to): Acute coronary syndrome Arrhythmias Atherosclerosis Basic cardiac electrophysiology Cardiac catheterization Cardiac remodeling Coagulation and thrombosis Diabetic cardiovascular disease Heart failure (systolic HF, HFrEF, diastolic HF, HFpEF) Hyperlipidemia Hypertension Ischemic heart disease Vascular biology Ventricular assist devices Molecular cardio-biology Myocardial regeneration Lipoprotein metabolism Radial artery access Percutaneous coronary intervention Transcatheter aortic and mitral valve replacement.