兴奋性突触的靶向特异性易损性导致智力障碍模型中联想记忆缺陷。
Target-specific vulnerability of excitatory synapses leads to deficits in associative memory in a model of intellectual disorder.
机构信息
Centre National de la Recherche Scientifique CNRS UMR5297, Université de Bordeaux, 33077 Bordeaux, France.
出版信息
J Neurosci. 2013 Aug 21;33(34):13805-19. doi: 10.1523/JNEUROSCI.1457-13.2013.
Abstract
Intellectual disorders (IDs) have been regularly associated with morphological and functional deficits at glutamatergic synapses in both humans and rodents. How these synaptic deficits may lead to the variety of learning and memory deficits defining ID is still unknown. Here we studied the functional and behavioral consequences of the ID gene il1rapl1 deficiency in mice and reported that il1rapl1 constitutive deletion alters cued fear memory formation. Combined in vivo and in vitro approaches allowed us to unveil a causal relationship between a marked inhibitory/excitatory (I/E) imbalance in dedicated amygdala neuronal subcircuits and behavioral deficits. Cell-targeted recordings further demonstrated a morpho-functional impact of the mutation at thalamic projections contacting principal cells, whereas the same afferents on interneurons are unaffected by the lack of Il1rapl1. We thus propose that excitatory synapses have a heterogeneous vulnerability to il1rapl1 gene constitutive mutation and that alteration of a subset of excitatory synapses in neuronal circuits is sufficient to generate permanent cognitive deficits.
摘要
智力障碍 (IDs) 与人类和啮齿动物的谷氨酸能突触的形态和功能缺陷经常相关。这些突触缺陷如何导致定义 ID 的各种学习和记忆缺陷仍然未知。在这里,我们研究了 ID 基因 il1rapl1 缺失在小鼠中的功能和行为后果,并报告 il1rapl1 组成性缺失改变了条件性恐惧记忆的形成。体内和体外联合方法使我们能够揭示专门的杏仁核神经元亚回路中明显的抑制/兴奋 (I/E) 失衡与行为缺陷之间的因果关系。细胞靶向记录进一步表明,突变对与主细胞接触的丘脑投射具有形态功能的影响,而缺乏 Il1rapl1 对中间神经元的相同传入没有影响。因此,我们提出兴奋性突触对 il1rapl1 基因组成性突变具有异质性易感性,并且神经元回路中兴奋性突触的子集改变足以产生永久性认知缺陷。
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