Theophylline reverses oxycodone's but not fentanyl's respiratory depression in mice while caffeine is ineffective against both opioids

IF 3.3 3区心理学 Q1 BEHAVIORAL SCIENCES Pharmacology Biochemistry and Behavior Pub Date : 2023-08-01 DOI:10.1016/j.pbb.2023.173601

Harrison J. Elder , D. Matthew Walentiny , Patrick M. Beardsley

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Abstract

Rationale

The opioid epidemic remains a pressing public health crisis in the United States. Most of these overdose deaths are a result of lethal respiratory depression. In recent years the increasing incidence of opioid-involved overdose deaths has been driven by fentanyl, which is more resistant to adequate reversal by naloxone (NARCAN ®) than semi-synthetic or classical morphinan predecessors like oxycodone and heroin. For this and other reasons (e.g., precipitating withdrawal) non-opioidergic pharmacotherapies to reverse opioid-depressed respiration are needed. Methylxanthines are a class of stimulant drugs including caffeine and theophylline which exert their effects primarily via adenosine receptor antagonism. Evidence suggests methylxanthines can stimulate respiration by enhancing neural activity in respiratory nuclei in the pons and medulla independent of opioid receptors. This study aimed to determine whether caffeine and theophylline can stimulate respiration in mice when depressed by fentanyl and oxycodone.

Methods

Whole-body plethysmography was used to characterize fentanyl and oxycodone's effects on respiration and their reversal by naloxone in male Swiss Webster mice. Next, caffeine and theophylline were tested for their effects on basal respiration. Finally, each methylxanthine was evaluated for its ability to reverse similar levels of respiratory depression induced by fentanyl or oxycodone.

Results and conclusions

Oxycodone and fentanyl dose-dependently reduced respiratory minute volume (ml/min; MVb) that was reversible by naloxone. Caffeine and theophylline each significantly increased basal MVb. Theophylline, but not caffeine, completely reversed oxycodone-depressed respiration. In contrast, neither methylxanthine elevated fentanyl-depressed respiration at the doses tested. Despite their limited efficacy for reversing opioid-depressed respiration when administered alone, the methylxanthines safety, duration, and mechanism of action supports further evaluation in combination with naloxone to augment its reversal of opioid-depressed respiration.

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茶碱能逆转羟考酮对小鼠的呼吸抑制作用，但不能逆转芬太尼的作用，而咖啡因对这两种阿片类药物都无效

阿片类药物的流行在美国仍然是一个紧迫的公共卫生危机。这些过量死亡大多是致命的呼吸抑制造成的。近年来，与羟考酮和海洛因等半合成或经典吗啡酮相比，芬太尼对纳洛酮(NARCAN®)的充分逆转更具抗性，导致阿片类药物过量死亡的发生率不断上升。由于这个原因和其他原因(例如，急性戒断)，需要非阿片类药物治疗来逆转阿片类药物抑制的呼吸。甲基黄嘌呤是一类兴奋剂，包括咖啡因和茶碱，主要通过腺苷受体拮抗剂发挥作用。有证据表明，甲基黄嘌呤可以通过增强脑桥和髓质的呼吸核的神经活动来刺激呼吸，而不依赖于阿片受体。这项研究旨在确定咖啡因和茶碱是否能刺激芬太尼和羟考酮抑制小鼠的呼吸。方法采用全身容积脉搏波法观察芬太尼和羟考酮对雄性瑞士韦氏小鼠呼吸的影响及纳洛酮对呼吸的逆转作用。接下来，研究人员测试了咖啡因和茶碱对基础呼吸的影响。最后，评估每种甲基黄嘌呤逆转芬太尼或羟考酮引起的类似水平呼吸抑制的能力。结果与结论羟考酮和芬太尼剂量依赖性降低呼吸分气量(ml/min;MVb)可被纳洛酮逆转。咖啡因和茶碱均显著增加基础MVb。茶碱，而不是咖啡因，完全逆转了氧可酮抑制的呼吸。相比之下，在测试的剂量下，甲基黄嘌呤都没有增加芬太尼抑制的呼吸。尽管单独使用甲基黄嘌呤逆转阿片类药物抑制呼吸的效果有限，但其安全性、持续时间和作用机制支持进一步评估与纳洛酮联合使用以增强其逆转阿片类药物抑制呼吸的作用。

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来源期刊

Pharmacology Biochemistry and Behavior 医学-行为科学

CiteScore

6.40

自引率

2.80%

发文量

122

审稿时长

38 days

期刊介绍： Pharmacology Biochemistry & Behavior publishes original reports in the areas of pharmacology and biochemistry in which the primary emphasis and theoretical context are behavioral. Contributions may involve clinical, preclinical, or basic research. Purely biochemical or toxicology studies will not be published. Papers describing the behavioral effects of novel drugs in models of psychiatric, neurological and cognitive disorders, and central pain must include a positive control unless the paper is on a disease where such a drug is not available yet. Papers focusing on physiological processes (e.g., peripheral pain mechanisms, body temperature regulation, seizure activity) are not accepted as we would like to retain the focus of Pharmacology Biochemistry & Behavior on behavior and its interaction with the biochemistry and neurochemistry of the central nervous system. Papers describing the effects of plant materials are generally not considered, unless the active ingredients are studied, the extraction method is well described, the doses tested are known, and clear and definite experimental evidence on the mechanism of action of the active ingredients is provided.