阿洛美沙(Almorexant)可促进嗜睡症小鼠模型的睡眠并加重猝倒。
Almorexant promotes sleep and exacerbates cataplexy in a murine model of narcolepsy.
机构信息
Biosciences Division, SRI International, Menlo Park, CA 94025, USA.
出版信息
Sleep. 2013 Mar 1;36(3):325-36. doi: 10.5665/sleep.2442.
STUDY OBJECTIVES
Humans with narcolepsy and orexin/ataxin-3 transgenic (TG) mice exhibit extensive, but incomplete, degeneration of hypo-cretin (Hcrt) neurons. Partial Hcrt cell loss also occurs in Parkinson disease and other neurologic conditions. Whether Hcrt antagonists such as almorexant (ALM) can exert an effect on the Hcrt that remains after Hcrt neurodegeneration has not yet been determined. The current study was designed to evaluate the hypnotic and cataplexy-inducing efficacy of a Hcrt antagonist in an animal model with low Hcrt tone and compare the ALM efficacy profile in the disease model to that produced in wild-type (WT) control animals.
DESIGN
Counterbalanced crossover study.
SETTING
Home cage.
PATIENTS OR PARTICIPANTS
Nine TG mice and 10 WT mice.
INTERVENTIONS
ALM (30, 100, 300 mg/kg), vehicle and positive control injections, dark/active phase onset.
MEASUREMENTS AND RESULTS
During the 12-h dark period after dosing, ALM exacerbated cataplexy in TG mice and increased nonrapid eye movement sleep with heightened sleep/wake fragmentation in both genotypes. ALM showed greater hypnotic potency in WT mice than in TG mice. The 100 mg/kg dose conferred maximal promotion of cataplexy in TG mice and maximal promotion of REM sleep in WT mice. In TG mice, ALM (30 mg/ kg) paradoxically induced a transient increase in active wakefulness. Core body temperature (Tb) decreased after acute Hcrt receptor blockade, but the reduction in Tb that normally accompanies the wake-to-sleep transition was blunted in TG mice.
CONCLUSIONS
These complex dose- and genotype-dependent interactions underscore the importance of effector mechanisms downstream from Hcrt receptors that regulate arousal state. Cataplexy promotion by ALM warrants cautious use of Hcrt antagonists in patient populations with Hcrt neurodegeneration, but may also facilitate the discovery of anticataplectic medications.
CITATION
Black SW; Morairty SR; Fisher SP; Chen TM; Warrier DR; Kilduff TS. Almorexant promotes sleep and exacerbates cataplexy in a murine model of narcolepsy. SLEEP 2013;36(3):325-336.
研究目的
发作性睡病患者和食欲素/ataxin-3 转基因(TG)小鼠表现出广泛但不完全的下丘脑泌素(Hcrt)神经元变性。帕金森病和其他神经疾病也会发生部分 Hcrt 细胞丢失。Hcrt 拮抗剂,如阿莫雷克斯(ALM),是否能对 Hcrt 神经退行性变后残留的 Hcrt 产生影响,目前尚不清楚。本研究旨在评估低 Hcrt 状态下 Hcrt 拮抗剂在动物模型中的催眠和猝倒诱导疗效,并将 ALM 在疾病模型中的疗效与野生型(WT)对照动物进行比较。
设计
平衡交叉研究。
环境
笼内。
患者或参与者
9 只 TG 小鼠和 10 只 WT 小鼠。
干预措施
ALM(30、100、300mg/kg)、载体和阳性对照注射,暗/活动期开始。
测量和结果
在给药后 12 小时的暗期内,ALM 加重了 TG 小鼠的猝倒,并增加了两种基因型的非快速眼动睡眠,同时增加了睡眠/觉醒的碎片化。ALM 在 WT 小鼠中的催眠效力大于 TG 小鼠。100mg/kg 剂量使 TG 小鼠的猝倒得到最大促进,并使 WT 小鼠的 REM 睡眠得到最大促进。在 TG 小鼠中,ALM(30mg/kg)反常地诱导了短暂的清醒期增加。急性 Hcrt 受体阻断后核心体温(Tb)下降,但在 TG 小鼠中,与觉醒到睡眠的转变伴随的 Tb 下降被削弱。
结论
这些复杂的剂量和基因型依赖性相互作用突出了调节觉醒状态的 Hcrt 受体下游效应机制的重要性。ALM 促进猝倒发作,这使得在 Hcrt 神经退行性变的患者人群中谨慎使用 Hcrt 拮抗剂,但也可能有助于发现抗猝倒药物。
引用
Black SW;Morairty SR;Fisher SP;Chen TM;Warrier DR;Kilduff TS。阿莫雷克斯在发作性睡病的小鼠模型中促进睡眠并加重猝倒。睡眠 2013;36(3):325-336。
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