Acetylcholine/dopamine interaction in planaria

Francesca R Buttarelli , Francesco E Pontieri , Vito Margotta , Guido Palladini
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引用次数: 59

Abstract

Planaria represents the most primitive example of centralization and cephalization of nervous system. Previous reports indicate that planaria shows specific behavioral patterns, analogous to mammalian stereotypes, in response to drugs acting on acetylcholine or dopamine transmission. Here we further characterized these responses, and investigated the interactions between cholinergic and dopaminergic systems by means of behavioral methods. Exposure to cholinergic agonists physostigmine or nicotine produced hypokinesia with ‘bridge-like’ and ‘walnut’ positions, respectively. Blockade of muscarinic receptors by atropine produced ‘screw-like’ hyperkinesia. Exposure to dopamine agonists (nomifensine, apomorphine) produced marked hyperkinesia with ‘screw-like’ movements. Finally, exposure to dopamine antagonists produced immobility or ‘bridge-like’ position. Pre-exposure to physostigmine blocked the behavioral effects of nomifensine and reduced and markedly delayed the behavioral effects of apomorphine. Pre-exposure to apomorphine slightly reduced and delayed the behavioral changes by physostigmine. Finally, planaria exposed to atropine after either SCH23388 or sulpiride showed ‘C-like’ or ‘screw-like’ hyperkinesia, respectively. Thus, reduction of cholinergic transmission seems to play a pivotal role in determining hyperkinesia in planaria. Under these conditions, different patterns of hyperkinetic activities occur, according to the subpopulation of dopamine receptors stimulated by drugs. These findings suggest that interactions between cholinergic and dopaminergic systems occur very early in animal phylogeny.

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涡虫中乙酰胆碱/多巴胺相互作用
涡虫是神经系统最原始的集中化和头化的例子。以前的报告表明,涡虫表现出特定的行为模式,类似于哺乳动物的刻板印象,对药物作用于乙酰胆碱或多巴胺的传递作出反应。在这里,我们进一步表征了这些反应,并通过行为方法研究了胆碱能和多巴胺能系统之间的相互作用。暴露于胆碱能激动剂-芥子碱或尼古丁下,分别产生“桥状”和“胡桃状”体位的运动障碍。阿托品阻断毒蕈碱受体产生“螺旋状”运动亢进。暴露于多巴胺激动剂(诺非芬,阿波啡)会产生明显的运动亢进和“螺旋状”运动。最后,暴露于多巴胺拮抗剂会产生不动或“桥状”姿势。预先暴露于毒豆碱阻断了诺非芬的行为作用,降低并显著延缓了阿扑啡的行为作用。预暴露于阿波啡可轻微减少和延缓毒豆碱引起的行为改变。最后,SCH23388或舒比利后暴露于阿托品的涡虫分别表现出“c型”或“螺旋型”运动过度。因此,胆碱能传递的减少似乎在决定涡虫运动亢进中起关键作用。在这些条件下,根据药物刺激多巴胺受体亚群的不同,会出现不同的多动活动模式。这些发现表明胆碱能和多巴胺能系统之间的相互作用在动物系统发育中很早就发生了。
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