增强细胞内在兴奋性会诱导成年齿状回新生神经元发生突触变化,该过程需要 Npas4。
Increased cell-intrinsic excitability induces synaptic changes in new neurons in the adult dentate gyrus that require Npas4.
机构信息
Brain and Cognitive Sciences Department, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.
出版信息
J Neurosci. 2013 May 1;33(18):7928-40. doi: 10.1523/JNEUROSCI.1571-12.2013.
Abstract
Electrical activity regulates the manner in which neurons mature and form connections to each other. However, it remains unclear whether increased single-cell activity is sufficient to alter the development of synaptic connectivity of that neuron or whether a global increase in circuit activity is necessary. To address this question, we genetically increased neuronal excitability of in vivo individual adult-born neurons in the mouse dentate gyrus via expression of a voltage-gated bacterial sodium channel. We observed that increasing the excitability of new neurons in an otherwise unperturbed circuit leads to changes in both their input and axonal synapses. Furthermore, the activity-dependent transcription factor Npas4 is necessary for the changes in the input synapses of these neurons, but it is not involved in changes to their axonal synapses. Our results reveal that an increase in cell-intrinsic activity during maturation is sufficient to alter the synaptic connectivity of a neuron with the hippocampal circuit and that Npas4 is required for activity-dependent changes in input synapses.
摘要
电活动调节神经元成熟的方式以及它们彼此之间形成连接的方式。然而,目前尚不清楚增加单个细胞的活动是否足以改变该神经元的突触连接的发育,或者是否需要整个电路活动的增加。为了解决这个问题,我们通过表达电压门控细菌钠离子通道,在体内遗传增加了单个成年新生神经元的兴奋性。我们观察到,在其他不受干扰的电路中增加新神经元的兴奋性会导致其输入和轴突突触发生变化。此外,活性依赖性转录因子 Npas4 对于这些神经元输入突触的变化是必需的,但它不参与其轴突突触的变化。我们的结果表明,成熟过程中细胞内固有活动的增加足以改变神经元与海马电路的突触连接,并且 Npas4 是活性依赖性输入突触变化所必需的。
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