[Behavioral, cellular and molecular consequences of the dopamine transporter gene inactivation].

M Jaber, B Bloch, M G Caron, B Giros
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Abstract

Mice lacking the the plasma membrane dopamine transporter (DAT), following gene inactivation or knock out, show an increase in their spontaneous locomotor activity that is of the same magnitude than in normal mice treated with amphetamine or cocaine, known to increase levels of dopamine in the basal ganglia. Many adaptive responses have occurred in these animals than could not compensate for the hyper activity of the dopamine system. Surprisingly, while intracellular dopamine levels were of only 5%, extracellular dopamine levels were increased by 300%. We investigated the regulation of tyrosine hydroxylase (TH), the rate limiting enzyme of dopamine synthesis, and found that this enzyme is regulated at the levels of mRNA, protein, trafficking as well as in its regional, cellular and subcellular organization. Our results establish not only the central importance of the transporter as the key element controlling dopamine levels in the brain, but also its role in the behavioral and biochemical action of amphetamine, cocaine and morphine. In addition, these mice have provided key elements leading to possible clinical and social implications for illnesses such as Parkinson disease, attention deficit disorder and drug addiction.

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[多巴胺转运体基因失活的行为、细胞和分子后果]。
缺乏质膜多巴胺转运体(DAT)的小鼠,在基因失活或敲除后,表现出自发运动活动的增加,其幅度与服用安非他明或可卡因的正常小鼠相同,已知安非他明或可卡因会增加基底神经节中的多巴胺水平。在这些动物身上发生了许多适应性反应,而这些反应无法补偿多巴胺系统的过度活跃。令人惊讶的是,虽然细胞内多巴胺水平仅为5%,但细胞外多巴胺水平却增加了300%。我们研究了多巴胺合成的限速酶酪氨酸羟化酶(TH)的调控,发现该酶在mRNA、蛋白质、运输以及其区域、细胞和亚细胞组织水平上受到调控。我们的研究结果不仅确立了转运体作为控制大脑多巴胺水平的关键因素的核心重要性,而且还确立了它在安非他明、可卡因和吗啡的行为和生化作用中的作用。此外,这些小鼠为帕金森病、注意力缺陷障碍和药物成瘾等疾病提供了可能的临床和社会意义的关键因素。
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