The role of β-adrenergic receptors in the regulation of cardiac tolerance to ischemia/reperfusion. Why do β-adrenergic receptor agonists and antagonists protect the heart?

IF 2.1 4区医学 Q3 PHARMACOLOGY & PHARMACY Fundamental & Clinical Pharmacology Pub Date : 2024-02-29 DOI:10.1111/fcp.12988

Leonid N. Maslov, Natalia V. Naryzhnaya, Nikita S. Voronkov, Boris K. Kurbatov, Ivan A. Derkachev, Vyacheslav V. Ryabov, Evgeny V. Vyshlov, Viktor V. Kolpakov, Eugenia A. Tomilova, Ekaterina V. Sapozhenkova, Nirmal Singh, Feng Fu, Jianming Pei

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Abstract

Background

Catecholamines and β-adrenergic receptors (β-ARs) play an important role in the regulation of cardiac tolerance to the impact of ischemia and reperfusion. This systematic review analyzed the molecular mechanisms of the cardioprotective activity of β-AR ligands.

Methods

We performed an electronic search of topical articles using PubMed databases from 1966 to 2023. We cited original in vitro and in vivo studies and review articles that documented the cardioprotective properties of β-AR agonists and antagonists.

Results

The infarct-reducing effect of β-AR antagonists did not depend on a decrease in the heart rate. The target for β-blockers is not only cardiomyocytes but also neutrophils. β1-blockers (metoprolol, propranolol, timolol) and the selective β2-AR agonist arformoterol have an infarct-reducing effect in coronary artery occlusion (CAO) in animals. Antagonists of β1- and β2-АR (metoprolol, propranolol, nadolol, carvedilol, bisoprolol, esmolol) are able to prevent reperfusion cardiac injury. All β-AR ligands that reduced infarct size are the selective or nonselective β1-blockers. It was hypothesized that β1-AR blocking promotes an increase in cardiac tolerance to I/R. The activation of β1-AR, β2-AR, and β3-AR can increase cardiac tolerance to I/R. The cardioprotective effect of β-AR agonists is mediated via the activation of kinases and reactive oxygen species production.

Conclusions

It is unclear why β-blockers with the similar receptor selectivity have the infarct-sparing effect while other β-blockers with the same selectivity do not affect infarct size. What is the molecular mechanism of the infarct-reducing effect of β-blockers in reperfusion? Why did in early studies β-blockers decrease the mortality rate in patients with acute myocardial infarction (AMI) and without reperfusion and in more recent studies β-blockers had no effect on the mortality rate in patients with AMI and reperfusion? The creation of more effective β-AR ligands depends on the answers to these questions.

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β-肾上腺素能受体在调节心脏对缺血/再灌注耐受性中的作用。为什么β肾上腺素能受体激动剂和拮抗剂能保护心脏？

背景：儿茶酚胺和β-肾上腺素能受体（β-ARs）在调节心脏对缺血和再灌注影响的耐受性方面发挥着重要作用。这篇系统性综述分析了β-AR配体心脏保护活性的分子机制：我们使用 PubMed 数据库对 1966 年至 2023 年的专题文章进行了电子检索。我们引用了记录 β-AR 激动剂和拮抗剂心脏保护特性的原始体外和体内研究以及综述文章：结果：β-AR 拮抗剂的梗死减轻作用并不依赖于心率的降低。β1-受体阻滞剂（美托洛尔、普萘洛尔、噻吗洛尔）和选择性β2-AR 激动剂阿福莫特罗对冠状动脉闭塞（CAO）动物具有减轻梗死的作用。β1-和β2-АR（美托洛尔、普萘洛尔、纳多洛尔、卡维地洛尔、比索洛尔、艾司洛尔）拮抗剂能够防止再灌注心脏损伤。所有能缩小梗死面积的β-AR配体都是选择性或非选择性β1-受体阻滞剂。据推测，β1-AR 受体阻断可促进心脏对 I/R 的耐受性增强。β1-AR、β2-AR 和 β3-AR 的激活可增加心脏对 I/R 的耐受性。β-AR激动剂的心脏保护作用是通过激活激酶和活性氧生成介导的：结论：目前尚不清楚为什么具有类似受体选择性的β受体阻滞剂具有保护心梗的作用，而具有相同选择性的其他β受体阻滞剂却不影响心梗的面积。β-受体阻滞剂在再灌注中减少梗死效应的分子机制是什么？为什么在早期研究中，β-受体阻滞剂能降低急性心肌梗死（AMI）且未进行再灌注患者的死亡率，而在最近的研究中，β-受体阻滞剂对急性心肌梗死且进行再灌注患者的死亡率没有影响？能否研制出更有效的 βAR 配体取决于这些问题的答案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Fundamental & Clinical Pharmacology 医学-药学

CiteScore

5.30

自引率

6.90%

发文量

111

审稿时长

6-12 weeks

期刊介绍： Fundamental & Clinical Pharmacology publishes reports describing important and novel developments in fundamental as well as clinical research relevant to drug therapy. Original articles, short communications and reviews are published on all aspects of experimental and clinical pharmacology including: Antimicrobial, Antiviral Agents Autonomic Pharmacology Cardiovascular Pharmacology Cellular Pharmacology Clinical Trials Endocrinopharmacology Gene Therapy Inflammation, Immunopharmacology Lipids, Atherosclerosis Liver and G-I Tract Pharmacology Metabolism, Pharmacokinetics Neuropharmacology Neuropsychopharmacology Oncopharmacology Pediatric Pharmacology Development Pharmacoeconomics Pharmacoepidemiology Pharmacogenetics, Pharmacogenomics Pharmacovigilance Pulmonary Pharmacology Receptors, Signal Transduction Renal Pharmacology Thrombosis and Hemostasis Toxicopharmacology Clinical research, including clinical studies and clinical trials, may cover disciplines such as pharmacokinetics, pharmacodynamics, pharmacovigilance, pharmacoepidemiology, pharmacogenomics and pharmacoeconomics. Basic research articles from fields such as physiology and molecular biology which contribute to an understanding of drug therapy are also welcomed.