基于含α6的GABAA受体的阳性调节寻找原发性震颤的新疗法。

IF 2.5 Q2 CLINICAL NEUROLOGY
Tremor and Other Hyperkinetic Movements Pub Date : 2023-10-23 eCollection Date: 2023-01-01 DOI:10.5334/tohm.796
Adrian Handforth, Ram P Singh, Marco Treven, Margot Ernst
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引用次数: 0

摘要

背景:先前使用GABAA受体亚基敲除和骆驼蓬碱模型的研究表明,低剂量酒精、加布沙多尔和甘纳索酮通过α6βδGABAA受体抑制震颤。这表明,特异性增强α6βδ或α6βγ2 GABAA受体作用的药物对震颤有效,这两种受体都主要在小脑颗粒细胞上表达。因此,我们检测了体外研究中描述的三种药物,即选择性α6βδ(氯胺酮)或α6βγ2(化合物6,氟马西尼)受体调节剂。方法:在评估的第一步中,寻求6/6只小鼠通过直线测试的最大剂量,这是一种对精神运动障碍敏感的测试。在骆驼蓬碱模型中,仅使用非损伤剂量来评估抗震颤效果,该模型在野生型和α6亚基敲除的同窝仔中进行了评估。结果:在两种基因型中,最大耐受剂量为2.0和3.5mg/kg的氯胺酮对骆驼蓬碱震颤的影响最小。化合物6在1-10mg/kg的良好耐受剂量下,有效地抑制了两种基因型的震颤。氟马西尼在剂量(0.015-0.05 mg/kg)远低于引起直丝损伤的剂量下抑制野生型小鼠的震颤,并且在α6敲除小鼠中不抑制震颤。讨论:α6βδ和α6βγ2 GABAA受体的调节剂值得关注,因为它们有望有效且耐受性良好。氯胺酮可能无法达到α6βδ的活性水平。化合物6是一个有吸引力的候选者,但还需要进一步的研究来阐明其作用机制。氟马西尼的结果证明了靶向α6βγ2受体是开发原发性震颤疗法的一种有价值的策略。亮点:我们测试了先前描述为体外α6βδ或α6βγ2 GABAA受体选择性调节剂的骆驼蓬碱震颤抑制药物。耐受性良好的氟马西尼剂量可抑制α6野生型小鼠的震颤,但不能抑制α6敲除小鼠的震颤。化合物6和氯胺酮未能显示出这种特征,可能是由于脱靶效应。选择性α6调节剂有望作为震颤治疗药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Search for Novel Therapies for Essential Tremor Based on Positive Modulation of α6-Containing GABA<sub>A</sub> Receptors.

Search for Novel Therapies for Essential Tremor Based on Positive Modulation of α6-Containing GABA<sub>A</sub> Receptors.

Search for Novel Therapies for Essential Tremor Based on Positive Modulation of α6-Containing GABA<sub>A</sub> Receptors.

Search for Novel Therapies for Essential Tremor Based on Positive Modulation of α6-Containing GABAA Receptors.

Background: Prior work using GABAA receptor subunit knockouts and the harmaline model has indicated that low-dose alcohol, gaboxadol, and ganaxolone suppress tremor via α6βδ GABAA receptors. This suggests that drugs specifically enhancing the action of α6βδ or α6βγ2 GABAA receptors, both predominantly expressed on cerebellar granule cells, would be effective against tremor. We thus examined three drugs described by in vitro studies as selective α6βδ (ketamine) or α6βγ2 (Compound 6, flumazenil) receptor modulators.

Methods: In the first step of evaluation, the maximal dose was sought at which 6/6 mice pass straight wire testing, a sensitive test for psychomotor impairment. Only non-impairing doses were used to evaluate for anti-tremor efficacy in the harmaline model, which was assessed in wildtype and α6 subunit knockout littermates.

Results: Ketamine, in maximally tolerated doses of 2.0 and 3.5 mg/kg had minimal effect on harmaline tremor in both genotypes. Compound 6, at well-tolerated doses of 1-10 mg/kg, effectively suppressed tremor in both genotypes. Flumazenil suppressed tremor in wildtype mice at doses (0.015-0.05 mg/kg) far lower than those causing straight wire impairment, and did not suppress tremor in α6 knockout mice.

Discussion: Modulators of α6βδ and α6βγ2 GABAA receptors warrant attention for novel therapies as they are anticipated to be effective and well-tolerated. Ketamine likely failed to attain α6βδ-active levels. Compound 6 is an attractive candidate, but further study is needed to clarify its mechanism of action. The flumazenil results provide proof of principle that targeting α6βγ2 receptors represents a worthy strategy for developing essential tremor therapies.

Highlights: We tested for harmaline tremor suppression drugs previously described as in vitro α6βδ or α6βγ2 GABAA receptor-selective modulators. Well-tolerated flumazenil doses suppressed tremor in α6-wildtype but not α6-knockout mice. Compound 6 and ketamine failed to display this profile, likely from off-target effects. Selective α6 modulators hold promise as tremor therapy.

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CiteScore
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