Kobayashi Minoru, Iaccarino Ciro, Saiardi Adolfo, Heidt Valérie, Bozzi Yuri, Picetti Roberto, Vitale Carmine, Westphal Heiner, Drago John, Borrelli Emiliana
Institut de Génétique et de Biologie Moléculaire et Cellulaire, 1 Rue Laurent Fries, 67404 Illkirch, France.
Proc Natl Acad Sci U S A. 2004 Aug 3;101(31):11465-70. doi: 10.1073/pnas.0402028101. Epub 2004 Jul 22.
Dopamine (DA) controls a wide variety of physiological functions in the central nervous system as well as in the neuroendocrine and gastrointestinal systems. DA signaling is mediated by five cloned receptors named D1-D5. Knockout mouse models for the five receptors have been generated, and, albeit impaired for some important DA-mediated functions, they are viable and can reproduce. D1 and D2 receptors are the most abundant and widely expressed DA receptors. Cooperative/synergistic effects mediated by these receptors have been suggested, in particular, in the control of motor behaviors. To analyze the extent of such interrelationship, we have generated double D1/D2 receptor mutants. Interestingly, in contrast to single knockouts, we found that concurrent ablation of the D1 and D2 receptors is lethal during the second or third week after birth. This dramatic phenotype is likely to be related to altered feeding behavior and dysfunction of the gastrointestinal system, especially because major anatomical changes were not identified in the brain. Similarly, in the absence of functional D1, heterozygous D2 mutants (D1r(-/-);D2r(+/-)) showed severe growth retardation and did not survive their postweaning period. The analysis of motor behavior in D1r/D2r compound mutants showed that loss of D2-mediated functions reduces motor abilities, whereas the effect of D1r ablation on locomotion strongly depends on the experimental paradigms used. These studies highlight the interrelationship between D1 and D2 receptor-mediated control of motor activity, food intake, and gastrointestinal functions, which has been elusive in the single-gene ablation studies.
多巴胺(DA)在中枢神经系统以及神经内分泌和胃肠系统中控制着多种生理功能。DA信号由五种克隆受体介导,命名为D1 - D5。已构建了这五种受体的基因敲除小鼠模型,尽管它们在一些重要的DA介导功能方面受损,但仍可存活并能繁殖。D1和D2受体是最丰富且广泛表达的DA受体。已有人提出这些受体介导的协同作用,特别是在运动行为的控制方面。为了分析这种相互关系的程度,我们构建了D1/D2双受体突变体。有趣的是,与单基因敲除小鼠不同,我们发现同时敲除D1和D2受体在出生后第二或第三周是致死的。这种显著的表型可能与摄食行为改变和胃肠系统功能障碍有关,特别是因为在脑中未发现主要的解剖学变化。同样,在缺乏功能性D1时,杂合D2突变体(D1r(-/-);D2r(+/-))表现出严重的生长迟缓,并且在断奶后无法存活。对D1r/D2r复合突变体运动行为的分析表明,D2介导功能的丧失会降低运动能力,而D1r缺失对运动的影响很大程度上取决于所使用的实验范式。这些研究突出了D1和D2受体介导的对运动活动、食物摄入和胃肠功能控制之间的相互关系,这在单基因敲除研究中一直难以捉摸。