Ehrman L A, Williams M T, Schaefer T L, Gudelsky G A, Reed T M, Fienberg A A, Greengard P, Vorhees C V
Division of Developmental Biology, Division of Neurology, Cincinnati Children's Research Foundation and University of Cincinnati College of Medicine, Cincinnati, OH 45229-3039, USA.
Genes Brain Behav. 2006 Oct;5(7):540-51. doi: 10.1111/j.1601-183X.2006.00209.x.
Mice lacking phosphodiesterase 1B (PDE1B) exhibit an exaggerated locomotor response to D-methamphetamine and increased in vitro phosphorylation of DARPP32 (dopamine- and cAMP-regulated phosphoprotein, M r 32 kDa) at Thr34 in striatal brain slices treated with the D1 receptor agonist, SKF81297. These results indicated a possible regulatory role for PDE1B in pathways involving DARPP32. Here, we generated PDE1B x DARPP32 double-knockout (double-KO) mice to test the role of PDE1B in DARPP32-dependent pathways in vivo. Analysis of the response to d-methamphetamine on locomotor activity showed that the hyperactivity experienced by PDE1B mutant mice was blocked in PDE1B-/- x DARPP32-/- double-KO mice, consistent with participation of PDE1B and DARPP32 in the same pathway. Further behavioral testing in the elevated zero-maze revealed that DARPP32-/- mice showed a less anxious phenotype that was nullified in double-mutant mice. In contrast, in the Morris water maze, double-KO mice showed deficits in spatial reversal learning not observed in either single mutant compared with wild-type mice. The data suggest a role for PDE1B in locomotor responses to psychostimulants through modulation of DARPP32-dependent pathways; however, this modulation does not necessarily impact other behaviors, such as anxiety or learning. Instead, the phenotype of double-KOs observed in these latter tasks may be mediated through independent pathways.
缺乏磷酸二酯酶1B(PDE1B)的小鼠对D-甲基苯丙胺表现出过度的运动反应,在用D1受体激动剂SKF81297处理的纹状体脑切片中,多巴胺和cAMP调节的磷蛋白(Mr 32 kDa,即DARPP32)在苏氨酸34处的体外磷酸化增加。这些结果表明PDE1B在涉及DARPP32的信号通路中可能具有调节作用。在此,我们构建了PDE1B×DARPP32双敲除(双KO)小鼠,以在体内测试PDE1B在依赖DARPP32的信号通路中的作用。对D-甲基苯丙胺运动活性反应的分析表明,PDE1B突变小鼠所经历的多动在PDE1B-/-×DARPP32-/-双KO小鼠中受到阻断,这与PDE1B和DARPP32参与同一信号通路一致。在高架零迷宫中的进一步行为测试表明,DARPP32-/-小鼠表现出焦虑程度较低的表型,但在双突变小鼠中这种表型消失了。相反,在莫里斯水迷宫中,与野生型小鼠相比,双KO小鼠在空间反转学习方面表现出缺陷,而在单突变小鼠中未观察到这种缺陷。数据表明,PDE1B通过调节依赖DARPP32的信号通路在对精神兴奋剂的运动反应中发挥作用;然而,这种调节不一定会影响其他行为,如焦虑或学习。相反,在这些后期任务中观察到的双KO小鼠的表型可能是通过独立的信号通路介导的。
