Mackler Scott, Pacchioni Alejandra, Degnan Ryan, Homan Ying, Conti Alana C, Kalivas Peter, Blendy Julie A
Department of Pharmacology, University of Pennsylvania, Philadelphia, PA 19104, United States.
Behav Brain Res. 2008 Feb 11;187(1):48-55. doi: 10.1016/j.bbr.2007.08.036. Epub 2007 Sep 2.
NAC1 is a novel member of the POZ/BTB (Pox virus and Zinc finger/Bric-a-bracTramtrack Broad complex) but varies from other proteins of this class in that it lacks the characteristic DNA-binding motif, suggesting a novel role. We have employed constitutive gene deletion to elucidate the role of NAC1 in vivo. Nac1 mutant mice are viable with no obvious developmental or physiological impairments. Previous studies suggest a role for NAC1 in cocaine-mediated behaviors. Therefore, we evaluated a variety of behaviors associated with psychomotor stimulant effects in Nac1 mutant mice. Acute locomotor activating effects of cocaine or amphetamine are absent in Nac1 mutant mice, however longer exposure to these psychomotor stimulants result in the development of behavioral sensitization. Acute rewarding properties of cocaine and amphetamine are also blunted in mutant mice, yet repeated exposure resulted in conditioned place preference similar to that observed in wild-type mice. Lastly, increases in extracellular dopamine in the nucleus accumbens, which accompany acute cocaine administration, are blunted in mutant mice, but following chronic cocaine extracellular dopamine levels are increased to the same extent as in wild-type mice. Together these data indicate involvement of NAC1 in the acute behavioral and neurochemical responses to psychomotor stimulants.
NAC1是POZ/BTB(痘病毒和锌指蛋白/布里克-阿-布拉克、Tramtrack、Broad复合体)家族的一个新成员,但与该家族的其他蛋白质不同,它缺乏特征性的DNA结合基序,这表明它具有新的作用。我们采用组成型基因缺失来阐明NAC1在体内的作用。Nac1突变小鼠能够存活,没有明显的发育或生理缺陷。先前的研究表明NAC1在可卡因介导的行为中起作用。因此,我们评估了Nac1突变小鼠中与精神运动兴奋剂效应相关的各种行为。Nac1突变小鼠对可卡因或苯丙胺的急性运动激活作用缺失,然而,长时间接触这些精神运动兴奋剂会导致行为敏化的发展。可卡因和苯丙胺的急性奖赏特性在突变小鼠中也减弱了,但反复接触会导致条件性位置偏爱,这与野生型小鼠中观察到的情况相似。最后,急性给予可卡因时伏隔核细胞外多巴胺的增加在突变小鼠中减弱,但在慢性给予可卡因后,细胞外多巴胺水平增加到与野生型小鼠相同的程度。这些数据共同表明NAC1参与了对精神运动兴奋剂的急性行为和神经化学反应。