Department of Psychology, University of Wisconsin-Milwaukee, Milwaukee, Wisconsin 53211, USA.
J Neurosci. 2013 Jul 31;33(31):12619-26. doi: 10.1523/JNEUROSCI.0659-13.2013.
Wnt signaling has emerged as a potent regulator of hippocampal synaptic function, although no evidence yet supports a critical role for Wnt signaling in hippocampal memory. Here, we sought to determine whether canonical β-catenin-dependent Wnt signaling is necessary for hippocampal memory consolidation. Immediately after training in a hippocampal-dependent object recognition task, mice received a dorsal hippocampal (DH) infusion of vehicle or the canonical Wnt antagonist Dickkopf-1 (Dkk-1; 50, 100, or 200 ng/hemisphere). Twenty-four hours later, mice receiving vehicle remembered the familiar object explored during training. However, mice receiving Dkk-1 exhibited no memory for the training object, indicating that object recognition memory consolidation is dependent on canonical Wnt signaling. To determine how Dkk-1 affects canonical Wnt signaling, mice were infused with vehicle or 50 ng/hemisphere Dkk-1 and protein levels of Wnt-related proteins (Dkk-1, GSK3β, β-catenin, TCF1, LEF1, Cyclin D1, c-myc, Wnt7a, Wnt1, and PSD95) were measured in the dorsal hippocampus 5 min or 4 h later. Dkk-1 produced a rapid increase in Dkk-1 protein levels and a decrease in phosphorylated GSK3β levels, followed by a decrease in β-catenin, TCF1, LEF1, Cyclin D1, c-myc, Wnt7a, and PSD95 protein levels 4 h later. These data suggest that alterations in Wnt/GSK3β/β-catenin signaling may underlie the memory impairments induced by Dkk-1. In a subsequent experiment, object training alone rapidly increased DH GSK3β phosphorylation and levels of β-catenin and Cyclin D1. These data suggest that canonical Wnt signaling is regulated by object learning and is necessary for hippocampal memory consolidation.
Wnt 信号转导已成为调节海马突触功能的有力因素,尽管目前尚无证据支持 Wnt 信号转导在海马记忆中起关键作用。在这里,我们试图确定经典 β-连环蛋白依赖性 Wnt 信号转导是否对海马记忆巩固是必要的。在海马依赖性物体识别任务训练后立即,小鼠接受背侧海马(DH)注射载体或经典 Wnt 拮抗剂 Dickkopf-1(Dkk-1;50、100 或 200ng/半脑)。24 小时后,接受载体的小鼠记住了在训练中探索过的熟悉物体。然而,接受 Dkk-1 的小鼠对训练物体没有记忆,表明物体识别记忆巩固依赖于经典 Wnt 信号转导。为了确定 Dkk-1 如何影响经典 Wnt 信号转导,将载体或 50ng/半脑 Dkk-1 注入小鼠,然后在 5 分钟或 4 小时后测量背侧海马中的 Wnt 相关蛋白(Dkk-1、GSK3β、β-连环蛋白、TCF1、LEF1、Cyclin D1、c-myc、Wnt7a、Wnt1 和 PSD95)的蛋白水平。Dkk-1 迅速增加 Dkk-1 蛋白水平并降低磷酸化 GSK3β 水平,4 小时后随后降低β-连环蛋白、TCF1、LEF1、Cyclin D1、c-myc、Wnt7a 和 PSD95 蛋白水平。这些数据表明,Wnt/GSK3β/β-连环蛋白信号转导的改变可能是 Dkk-1 诱导的记忆损伤的基础。在随后的实验中,单独的物体训练迅速增加了 DH GSK3β 磷酸化和β-连环蛋白和 Cyclin D1 的水平。这些数据表明,经典 Wnt 信号转导受物体学习调节,是海马记忆巩固所必需的。
