Laboratory for Comparative Connectomics, RIKEN Center for Biosystems Dynamics Research, Kobe, Hyogo 650-0047, Japan.
Laboratory for Comparative Connectomics, RIKEN Center for Biosystems Dynamics Research, Kobe, Hyogo 650-0047, Japan.
Neuron. 2022 Jun 15;110(12):2009-2023.e5. doi: 10.1016/j.neuron.2022.03.033. Epub 2022 Apr 19.
The adult brain can flexibly adapt behaviors to specific life-stage demands. For example, while sexually naive male mice are aggressive to the conspecific young, they start to provide caregiving to infants around the time when their own young are expected. How such behavioral plasticity is implemented at the level of neural connections remains poorly understood. Here, using viral-genetic approaches, we establish hypothalamic oxytocin neurons as the key regulators of the parental caregiving behaviors of male mice. We then use rabies-virus-mediated unbiased screening to identify excitatory neural connections originating from the lateral hypothalamus to the oxytocin neurons to be drastically strengthened when male mice become fathers. These connections are functionally relevant, as their activation suppresses pup-directed aggression in virgin males. These results demonstrate the life-stage associated, long-distance, and cell-type-specific plasticity of neural connections in the hypothalamus, the brain region that is classically assumed to be hard-wired.
成年大脑可以灵活地根据特定的生命阶段需求来调整行为。例如,性未成熟的雄性老鼠对同种幼鼠具有攻击性,但当它们自己的幼鼠即将出生时,它们就开始照顾幼鼠。这种行为可塑性是如何在神经连接层面上实现的,目前还知之甚少。在这里,我们使用病毒遗传方法,将下丘脑催产素神经元确定为雄性老鼠进行亲代养育行为的关键调节者。然后,我们使用狂犬病毒介导的无偏筛选方法,发现当雄性老鼠成为父亲时,源自外侧下丘脑到催产素神经元的兴奋性神经连接会显著增强。这些连接具有功能相关性,因为它们的激活可以抑制处女雄性对幼鼠的攻击行为。这些结果表明,下丘脑的神经连接具有与生命阶段相关的、远距离的和细胞类型特异性的可塑性,而下丘脑是经典上被认为是硬连线的大脑区域。
