Adrogolide HCl (ABT-431; DAS-431), a prodrug of the dopamine D1 receptor agonist, A-86929: preclinical pharmacology and clinical data.

W. J. Giardina, Michael Williams
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引用次数: 54

Abstract

Adrogolide (ABT-431; DAS-431) is a chemically stable prodrug that is converted rapidly (<1 min) in plasma to A-86929, a full agonist at dopamine D1 receptors. In in vitro functional assays, A-86929 is over 400 times more selective for dopamine D1 than D2 receptors. In rats with a unilateral loss of striatal dopamine, A-86929 produces contralateral rotations that are inhibited by dopamine D1 but not by dopamine D2 receptor antagonists. Adrogolide improves behavioral disability and locomotor activity scores in MPTP-lesioned marmosets, a model of Parkinson's disease (PD), and shows no tolerance upon repeated dosing for 28 days. In PD patients, intravenous (i.v.) adrogolide has antiparkinson efficacy equivalent to that of L-DOPA with a tendency towards a reduced liability to induce dyskinesia. The adverse events associated with its use were of mild-to-moderate severity and included injection site reaction, asthenia, headache, nausea, vomiting, postural hypotension, vasodilitation, and dizziness. Adrogolide can also attenuate the ability of cocaine to induce cocaine-seeking behavior and does not itself induce cocaine-seeking behavior in a rodent model of cocaine craving and relapse. In human cocaine abusers, i.v. adrogolide reduces cocaine craving and other cocaine-induced subjective effects. The results of animal abuse liability studies indicate that adrogolide is unlikely to have abuse potential in man. Adrogolide has also been reported to reverse haloperidol-induced cognitive deficits in monkeys, suggesting that it may be an effective treatment for the cognitive dysfunction associated with aging and disease. Adrogolide undergoes a high hepatic "first-pass" metabolism in man after oral dosing and, as a result, has a low oral bioavailability (approximately 4%). This limitation may potentially be circumvented by oral inhalation formulations for intrapulmonary delivery that greatly increase the bioavailability of adrogolide. As the first full dopamine D1 receptor agonist to show efficacy in PD patients and to reduce the craving and subjective effects of cocaine in cocaine abusers, adrogolide represents an important tool in understanding the pharmacotherapeutic potential of dopamine D1 receptor agonists.
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盐酸阿甘内酯(ABT-431;多巴胺D1受体激动剂a -86929的前药DAS-431:临床前药理及临床资料
Adrogolide (abt - 431;DAS-431)是一种化学稳定的前药,可在血浆中迅速(<1分钟)转化为a -86929, a -86929是多巴胺D1受体的完全激动剂。在体外功能测定中,A-86929对多巴胺D1的选择性比D2受体高400倍以上。在单侧纹状体多巴胺缺失的大鼠中,a -86929产生对侧旋转,这种旋转被多巴胺D1抑制,而不被多巴胺D2受体拮抗剂抑制。Adrogolide改善mptp损伤狨猴(帕金森病(PD)模型)的行为障碍和运动活动评分,并且在重复给药28天后显示无耐受性。在PD患者中,静脉注射阿德罗内酯具有与左旋多巴相当的抗帕金森疗效,并且倾向于减少诱发运动障碍的可能性。与其使用相关的不良事件为轻至中度严重程度,包括注射部位反应、虚弱、头痛、恶心、呕吐、体位性低血压、血管舒张和头晕。Adrogolide还可以减弱可卡因诱导可卡因寻求行为的能力,并且在可卡因渴求和复发的啮齿动物模型中本身不会诱导可卡因寻求行为。在人类可卡因滥用者中,静脉注射阿德罗内酯可以减少对可卡因的渴望和其他可卡因引起的主观影响。动物虐待责任研究的结果表明,阿德罗内酯不太可能对人类有滥用的可能性。阿德罗内酯也被报道可以逆转氟哌啶醇引起的猴子认知缺陷,这表明它可能是一种有效的治疗与衰老和疾病相关的认知功能障碍的方法。口服给药后,阿德罗内酯在人体内具有较高的肝脏“首过”代谢,因此其口服生物利用度较低(约为4%)。这一限制可能会被用于肺内输送的口服吸入制剂所规避,这种制剂大大增加了阿德罗内酯的生物利用度。作为首个对PD患者有效的全多巴胺D1受体激动剂,阿德罗内酯可以减少可卡因滥用者对可卡因的渴望和主观影响,是了解多巴胺D1受体激动剂药物治疗潜力的重要工具。
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