Perona Maria T G, Waters Shonna, Hall Frank Scott, Sora Ichiro, Lesch Klaus-Peter, Murphy Dennis L, Caron Marc, Uhl George R
Molecular Neurobiology Branch, NIDA-IRP, NIH, Baltimore, Maryland 21224, USA.
Behav Pharmacol. 2008 Sep;19(5-6):566-74. doi: 10.1097/FBP.0b013e32830cd80f.
Antidepressant drugs produce therapeutic actions and many of their side effects via blockade of the plasma membrane transporters for serotonin (SERT/SLC6A2), norepinephrine (NET/SLC6A1), and dopamine (DAT/SLC6A3). Many antidepressants block several of these transporters; some are more selective. Mouse gene knockouts of these transporters provide interesting models for possible effects of chronic antidepressant treatments. To examine the role of monoamine transporters in models of depression DAT, NET, and SERT knockout (KO) mice and wild-type littermates were studied in the forced swim test (FST), the tail suspension test, and for sucrose consumption. To dissociate general activity from potential antidepressant effects three types of behavior were assessed in the FST: immobility, climbing, and swimming. In confirmation of earlier reports, both DAT KO and NET KO mice exhibited less immobility than wild-type littermates whereas SERT KO mice did not. Effects of DAT deletion were not simply because of hyperactivity, as decreased immobility was observed in DAT+/- mice that were not hyperactive as well as in DAT-/- mice that displayed profound hyperactivity. Climbing was increased, whereas swimming was almost eliminated in DAT-/- mice, and a modest but similar effect was seen in NET KO mice, which showed a modest decrease in locomotor activity. Combined increases in climbing and decreases in immobility are characteristic of FST results in antidepressant animal models, whereas selective effects on swimming are associated with the effects of stimulant drugs. Therefore, an effect on climbing is thought to more specifically reflect antidepressant effects, as has been observed in several other proposed animal models of reduced depressive phenotypes. A similar profile was observed in the tail suspension test, where DAT, NET, and SERT knockouts were all found to reduce immobility, but much greater effects were observed in DAT KO mice. However, to further determine whether these effects of DAT KO in animal models of depression may be because of the confounding effects of hyperactivity, mice were also assessed in a sucrose consumption test. Sucrose consumption was increased in DAT KO mice consistent with reduced anhedonia, and inconsistent with competitive hyperactivity; no increases were observed in SERT KO or NET KO mice. In summary, the effects of DAT KO in animal models of depression are larger than those produced by NET or SERT KO, and unlikely to be simply the result of the confounding effects of locomotor hyperactivity; thus, these data support reevaluation of the role that DAT expression could play in depression and the potential antidepressant effects of DAT blockade.
抗抑郁药物通过阻断血清素(SERT/SLC6A2)、去甲肾上腺素(NET/SLC6A1)和多巴胺(DAT/SLC6A3)的质膜转运体产生治疗作用及其许多副作用。许多抗抑郁药会阻断其中几种转运体;有些则更具选择性。这些转运体的小鼠基因敲除为慢性抗抑郁治疗的可能效果提供了有趣的模型。为了研究单胺转运体在抑郁症模型中的作用,对DAT、NET和SERT基因敲除(KO)小鼠及其野生型同窝小鼠进行了强迫游泳试验(FST)、悬尾试验和蔗糖消耗试验。为了将一般活动与潜在的抗抑郁作用区分开来,在FST中评估了三种行为类型:不动、攀爬和游泳。正如早期报告所证实的,DAT KO和NET KO小鼠的不动时间均比野生型同窝小鼠少,而SERT KO小鼠则没有。DAT基因缺失的影响并非仅仅是由于多动,因为在没有多动的DAT+/-小鼠以及表现出严重多动的DAT-/-小鼠中都观察到了不动时间的减少。在DAT-/-小鼠中攀爬增加,而游泳几乎消失,在NET KO小鼠中也观察到了适度但类似的效果,其运动活动略有下降。攀爬增加和不动时间减少相结合是抗抑郁动物模型FST结果的特征,而对游泳的选择性影响与兴奋剂药物的作用相关。因此,正如在其他几种提出的抑郁表型降低的动物模型中所观察到的那样,对攀爬的影响被认为更具体地反映了抗抑郁作用。在悬尾试验中也观察到了类似的情况,在该试验中发现DAT、NET和SERT基因敲除均能减少不动时间,但在DAT KO小鼠中观察到的效果要大得多。然而,为了进一步确定DAT KO在抑郁症动物模型中的这些作用是否可能是由于多动的混杂效应,还对小鼠进行了蔗糖消耗试验。DAT KO小鼠的蔗糖消耗量增加,这与快感缺失减少一致,与竞争性多动不一致;在SERT KO或NET KO小鼠中未观察到增加。总之,DAT KO在抑郁症动物模型中的作用比NET或SERT KO产生的作用更大,不太可能仅仅是运动多动混杂效应的结果;因此,这些数据支持重新评估DAT表达在抑郁症中可能发挥的作用以及DAT阻断的潜在抗抑郁作用。
