Mouse Biology Unit, European Molecular Biology Laboratory, 00015 Monterotondo, Italy.
J Neurosci. 2013 May 15;33(20):8678-88. doi: 10.1523/JNEUROSCI.2067-12.2013.
Numerous studies link decreased serotonin metabolites with increased impulsive and aggressive traits. However, although pharmacological depletion of serotonin is associated with increased aggression, interventions aimed at directly decreasing serotonin neuron activity have supported the opposite association. Furthermore, it is not clear if altered serotonin activity during development may contribute to some of the observed associations. Here, we used two pharmacogenetic approaches in transgenic mice to selectively and reversibly reduce the firing of serotonin neurons in behaving animals. Conditional overexpression of the serotonin 1A receptor (Htr1a) in serotonin neurons showed that a chronic reduction in serotonin neuron firing was associated with heightened aggression. Overexpression of Htr1a in adulthood, but not during development, was sufficient to increase aggression. Rapid suppression of serotonin neuron firing by agonist treatment of mice expressing Htr1a exclusively in serotonin neurons also led to increased aggression. These data confirm a role of serotonin activity in setting thresholds for aggressive behavior and support a direct association between low levels of serotonin homeostasis and increased aggression.
许多研究将血清素代谢物的减少与冲动和攻击性特质的增加联系起来。然而,尽管血清素的药理学耗竭与攻击性增加有关,但旨在直接降低血清素神经元活性的干预措施却支持了相反的关联。此外,在发育过程中改变血清素活性是否会导致一些观察到的关联尚不清楚。在这里,我们使用两种转基因小鼠的遗传药理学方法来选择性地和可逆地降低行为动物中血清素神经元的放电。5-羟色胺 1A 受体(Htr1a)在血清素神经元中的条件过表达表明,血清素神经元放电的慢性减少与攻击性增强有关。成年期而非发育期 Htr1a 的过表达足以增加攻击性。仅在血清素神经元中表达 Htr1a 的小鼠的激动剂处理可迅速抑制血清素神经元放电,也会导致攻击性增加。这些数据证实了血清素活性在设定攻击性行为阈值方面的作用,并支持低水平的血清素动态平衡与攻击性增加之间的直接关联。