短期可塑性限制了海马体突触前末梢的空间组织。
Short-term plasticity constrains spatial organization of a hippocampal presynaptic terminal.
机构信息
Center for Theoretical Biological Physics, University of California at San Diego, La Jolla, CA 92093, USA.
出版信息
Proc Natl Acad Sci U S A. 2012 Sep 4;109(36):14657-62. doi: 10.1073/pnas.1211971109. Epub 2012 Aug 20.
Abstract
Although the CA3-CA1 synapse is critically important for learning and memory, experimental limitations have to date prevented direct determination of the structural features that determine the response plasticity. Specifically, the local calcium influx responsible for vesicular release and short-term synaptic facilitation strongly depends on the distance between the voltage-dependent calcium channels (VDCCs) and the presynaptic active zone. Estimates for this distance range over two orders of magnitude. Here, we use a biophysically detailed computational model of the presynaptic bouton and demonstrate that available experimental data provide sufficient constraints to uniquely reconstruct the presynaptic architecture. We predict that for a typical CA3-CA1 synapse, there are ~70 VDCCs located 300 nm from the active zone. This result is surprising, because structural studies on other synapses in the hippocampus report much tighter spatial coupling. We demonstrate that the unusual structure of this synapse reflects its functional role in short-term plasticity (STP).
摘要
虽然 CA3-CA1 突触对于学习和记忆至关重要,但迄今为止,实验限制使得直接确定决定反应可塑性的结构特征变得不可能。具体来说,负责囊泡释放和短期突触易化的局部钙内流强烈依赖于电压依赖性钙通道 (VDCC) 和突触前活性区之间的距离。对这个距离的估计跨度为两个数量级。在这里,我们使用突触前末梢的详细生物物理计算模型,并证明可用的实验数据提供了足够的约束条件,可以唯一地重建突触前结构。我们预测,对于一个典型的 CA3-CA1 突触,有大约 70 个 VDCC 位于离活性区 300nm 的位置。这一结果令人惊讶,因为对海马体中其他突触的结构研究报告了更紧密的空间耦合。我们证明了这个突触的异常结构反映了它在短期可塑性 (STP) 中的功能作用。
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