以α1-和α2-肾上腺素能受体为靶点作为芬太尼诱导的运动和通气抑制的对策

IF 4.2 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Environmental toxicology and pharmacology Pub Date : 2024-08-04 DOI:10.1016/j.etap.2024.104527

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引用次数: 0

摘要

本研究评估了α1和α2肾上腺素能药物降低芬太尼诱导的运动和呼吸抑制的能力。先给大鼠注射生理盐水或芬太尼，然后再注射：(1)纳曲酮；(2)纳洛酮；(3)纳美芬；(4)α1激动剂苯肾上腺素；(5)α1拮抗剂哌唑嗪；(6)α1D拮抗剂BMY-7378；(7)α2激动剂氯尼丁；(8)α2拮抗剂育亨宾或(9)车辆。所有μ-阿片拮抗剂都能剂量依赖性地逆转芬太尼诱导的运动和通气抑制。虽然α1类药物不会改变芬太尼的作用，但在使用或不使用芬太尼的情况下，氯尼丁（clonidine）剂量依赖性地减少了运动和呼吸。相反，单独使用低剂量（0.3-1 毫克/千克）育亨宾可刺激通气，高剂量（大于 1 毫克/千克）可部分逆转（约 50%）芬太尼诱导的通气抑制，但不能逆转运动抑制。大剂量育亨宾与次优剂量的纳曲酮联合使用可逆转芬太尼诱导的通气抑制，这表明育亨宾具有加成作用。育亨宾可作为一种有效的辅助对策药物，与纳曲酮联合使用，以挽救芬太尼诱导的通气抑制。

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Targeting α1- and α2-adrenergic receptors as a countermeasure for fentanyl-induced locomotor and ventilatory depression

This study assessed the ability of α₁ and α₂-adrenergic drugs to decrease fentanyl-induced locomotor and ventilatory depression. Rats were given saline or fentanyl, followed by: (1) naltrexone, (2) naloxone, (3) nalmefene, (4) α₁ agonist phenylephrine, (5) α₁ antagonist prazosin, (6) α_1D antagonist BMY-7378, (7) α₂ agonist clonidine, (8) α₂ antagonist yohimbine or (9) vehicle. All µ-opioid antagonists dose-dependently reversed fentanyl-induced locomotor and ventilatory depression. While the α₁ drugs did not alter the effects of fentanyl, clonidine dose-dependently decreased locomotion and respiration with and without fentanyl. Conversely, yohimbine given at a low dose (0.3–1 mg/kg) stimulated ventilation when given alone and higher doses (>1 mg/kg) partially reversed (∼50 %) fentanyl-induced ventilatory depression, but not locomotor depression. High doses of yohimbine in combination with a suboptimal dose of naltrexone reversed fentanyl-induced ventilatory depression, suggestive of additivity. Yohimbine may serve as an effective adjunctive countermeasure agent combined with naltrexone to rescue fentanyl-induced ventilatory depression.

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来源期刊

Environmental toxicology and pharmacology 医学-毒理学

CiteScore

7.00

自引率

4.70%

发文量

185

审稿时长

34 days

期刊介绍： Environmental Toxicology and Pharmacology publishes the results of studies concerning toxic and pharmacological effects of (human and veterinary) drugs and of environmental contaminants in animals and man. Areas of special interest are: molecular mechanisms of toxicity, biotransformation and toxicokinetics (including toxicokinetic modelling), molecular, biochemical and physiological mechanisms explaining differences in sensitivity between species and individuals, the characterisation of pathophysiological models and mechanisms involved in the development of effects and the identification of biological markers that can be used to study exposure and effects in man and animals. In addition to full length papers, short communications, full-length reviews and mini-reviews, Environmental Toxicology and Pharmacology will publish in depth assessments of special problem areas. The latter publications may exceed the length of a full length paper three to fourfold. A basic requirement is that the assessments are made under the auspices of international groups of leading experts in the fields concerned. The information examined may either consist of data that were already published, or of new data that were obtained within the framework of collaborative research programmes. Provision is also made for the acceptance of minireviews on (classes of) compounds, toxicities or mechanisms, debating recent advances in rapidly developing fields that fall within the scope of the journal.