鼻内瘦素对阿片类药物引起的呼吸抑制的疗效取决于性别和肥胖状态

IF 5.3 2区 医学 Q1 PHYSIOLOGY
Michele L. Singer, Mi Kyung Shin, Lenise Kim, C. Freire, O. Aung, H. Pho, Alban Latremoliere
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引用次数: 0

摘要

阿片类药物引起的呼吸抑制(OIRD)是阿片类药物导致死亡的主要原因,肥胖症患者因合并阻塞性睡眠呼吸暂停(OSA)而特别容易受到影响。反复接触阿片类药物(如止痛药)会导致治疗效果减弱和/或需要更大剂量才能维持相同效果。由于解决重复接触带来的负面影响的手段有限,因此开发出既能防止阿片类药物导致死亡,又不减少有益镇痛效果的药物至关重要。我们之前已经证明,鼻内注射瘦素(IN)可以逆转呼吸暂停、通气不足和上呼吸道阻塞,同时增强肥胖男性急性吗啡给药后的镇痛效果。在此,我们假设在瘦小鼠和饮食诱发肥胖(DIO)的雌雄小鼠体内注射 IN 瘦素可减轻长期使用阿片类药物导致的 OIRD,同时维持镇痛效果。为了验证这一假设,我们制定了阿片类药物耐受方案,并在长期接受吗啡且对吗啡镇痛耐受的小鼠中建立了OIRD模型。随后,在肥胖雄性、肥胖雌性、瘦弱雄性和瘦弱雌性四个实验组中,通过气压褶压计记录了它们在急性注射 IN 瘦素后的睡眠和呼吸情况。操作行为试验用于确定 IN 瘦素对吗啡镇痛效果的影响。给DIO雄性小鼠急性注射IN瘦素可显著减轻OIRD,使呼吸暂停指数降低58.9%,呼吸暂停时间缩短60.1%。瘦素对瘦小鼠无效。吗啡会导致完全丧失温度厌恶感,而鼻内注射瘦素并不会降低这种厌恶感,这表明 IN 瘦素不会降低吗啡镇痛效果。我们的结论是,IN瘦素对瘦小鼠无效,但在血脑屏障存在瘦素阻力时,可通过增加高碳酸血症敏感性来防止肥胖症的OIRD,而不会降低镇痛效果。这项工作得到了美国国立卫生研究院的资助:R01NS112266(AL)、R01HL128970、R61HL156240、R41DA056239(VYP)和 T32HL110952(MLS)。本文是在 2024 年美国生理学峰会上发表的摘要全文,仅提供 HTML 格式。本摘要没有附加版本或附加内容。生理学》未参与同行评审过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effcacy of intranasal leptin for opioid induced respiratory depression depends on sex and obesity state
Opioid-induced respiratory depression (OIRD) is the primary cause of death associated with opioids and individuals with obesity are particularly susceptible due to comorbid obstructive sleep apnea (OSA). Repeated exposure to opioids, as in the case of pain management, results in diminished therapeutic effect and/or the need for higher doses to maintain the same effect. With limited means to address the negative impact of repeated exposure it is critical to develop drugs that prevent deaths induced by opioids without reducing beneficial analgesia. We have previously shown that intranasal (IN) leptin can reverse apneas, hypoventilation, and upper airway obstruction while enhancing analgesia following acute morphine administration in obese males. Here we hypothesize that OIRD as a result of chronic opioid use can be attenuated by administration of IN leptin while also maintaining analgesia in both lean mice and mice with diet-induced obesity (DIO) of both sexes. To test this hypothesis, an opioid tolerance protocol was developed and a model of OIRD in mice chronically receiving morphine and tolerant to morphine analgesia was established. Subsequently, sleep and breathing were recorded by barometric plethysmography in four experimental groups: obese male, obese female, lean male, and lean female following acute administration of IN leptin. Operant behavioral assays were used to determine the impact of IN leptin on the analgesic effcacy of morphine. Acute administration of IN leptin significantly attenuated OIRD in DIO male mice decreasing the apnea index by 58.9% and apnea time by 60.1%. In lean mice leptin was ineffective. Morphine caused a complete loss of temperature aversion which was not reduced by intranasal leptin indicating IN leptin does not decrease morphine analgesia. We conclude that IN leptin is ineffective in lean mice but prevents OIRD in obesity by increasing hypercapnic sensitivity when leptin resistance at the blood brain barrier is present without reducing analgesia. This work was supported by funding from the National Institutes of Health: R01NS112266 (AL), R01HL128970, R61HL156240, R41DA056239 (VYP), and T32HL110952 (MLS). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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来源期刊
Physiology
Physiology 医学-生理学
CiteScore
14.50
自引率
0.00%
发文量
37
期刊介绍: Physiology journal features meticulously crafted review articles penned by esteemed leaders in their respective fields. These articles undergo rigorous peer review and showcase the forefront of cutting-edge advances across various domains of physiology. Our Editorial Board, comprised of distinguished leaders in the broad spectrum of physiology, convenes annually to deliberate and recommend pioneering topics for review articles, as well as select the most suitable scientists to author these articles. Join us in exploring the forefront of physiological research and innovation.
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