Role of Acetaldehyde in Ethanol Reversal of Tolerance to Morphine-Induced Respiratory Depression in Mice.

Rob Hill, Alexandra Conibear, William Dewey, Eamonn Kelly, Graeme Henderson
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Abstract

Background: Opioid users regularly consume other drugs such as alcohol (ethanol). Acute administration of ethanol rapidly reverses tolerance to morphine-induced respiratory depression. However, recent research has suggested that the primary metabolite of ethanol, acetaldehyde, may play a key role in mediating the CNS effects seen after ethanol consumption. This research investigated the role of acetaldehyde in ethanol reversal of tolerance to morphine-induced respiratory depression.

Methods: Tolerance was induced in mice by 6-days implantation of a 75 mg morphine pellet with control mice implanted with a placebo pellet. Tolerance was assessed by acute morphine administration on day 6 and respiration measured by plethysmography. Levels of acetaldehyde were inhibited or enhanced by pre-treatments with the acetaldehyde chelator D-penicillamine and the inhibitor of acetaldehyde dehydrogenase disulfiram respectively.

Results: Morphine pellet implanted mice displayed tolerance to an acute dose of morphine compared to placebo pellet implanted controls. Acute acetaldehyde administration dose-dependently reversed tolerance to morphine respiratory depression. As previously demonstrated, ethanol reversed morphine tolerance, and this was inhibited by D-penicillamine pre-treatment. An acute, low dose of ethanol that did not significantly reverse morphine tolerance was able to do so following disulfiram pre-treatment.

Conclusion: These data suggest that acetaldehyde, the primary metabolite of ethanol, is responsible for the reversal of morphine tolerance observed following ethanol administration.

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乙醛在乙醇逆转小鼠吗啡诱导的呼吸抑制耐受中的作用。
背景:阿片类药物使用者经常消耗其他药物,如酒精(乙醇)。急性给予乙醇可迅速逆转对吗啡诱导的呼吸抑制的耐受性。然而,最近的研究表明,乙醇的主要代谢物乙醛可能在介导乙醇消耗后的中枢神经系统效应中起关键作用。本研究探讨了乙醛在乙醇逆转吗啡诱导的呼吸抑制耐受中的作用。方法:给小鼠注射75mg吗啡小丸6 d,对照组小鼠注射安慰剂小丸6 d,诱导小鼠耐受。第6天通过急性吗啡给药评估耐受性,并通过体积脉搏图测量呼吸。用乙醛螯合剂d -青霉胺和乙醛脱氢酶抑制剂二硫仑分别进行预处理,可以抑制或提高乙醛水平。结果:与植入安慰剂颗粒的对照组相比,植入吗啡颗粒的小鼠对急性剂量吗啡表现出耐受性。急性乙醛给药剂量依赖性逆转吗啡呼吸抑制耐受性。如前所述,乙醇逆转吗啡耐受性,这被d -青霉胺预处理抑制。急性、低剂量的乙醇不能显著逆转吗啡耐受性,但在双硫仑预处理后却能逆转吗啡耐受性。结论:这些数据表明,乙醛,乙醇的主要代谢物,是在给药后观察到的吗啡耐受逆转的原因。
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