Regulation and Function of Activity-Dependent Homer in Synaptic Plasticity

N. Clifton, Simon Trent, K. Thomas, J. Hall
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引用次数: 45

Abstract

Alterations in synaptic signaling and plasticity occur during the refinement of neural circuits over the course of development and the adult processes of learning and memory. Synaptic plasticity requires the rearrangement of protein complexes in the postsynaptic density (PSD), trafficking of receptors and ion channels and the synthesis of new proteins. Activity-induced short Homer proteins, Homer1a and Ania-3, are recruited to active excitatory synapses, where they act as dominant negative regulators of constitutively expressed, longer Homer isoforms. The expression of Homer1a and Ania-3 initiates critical processes of PSD remodeling, the modulation of glutamate receptor-mediated functions, and the regulation of calcium signaling. Together, available data support the view that Homer1a and Ania-3 are responsible for the selective, transient destabilization of postsynaptic signaling complexes to facilitate plasticity of the excitatory synapse. The interruption of activity-dependent Homer proteins disrupts disease-relevant processes and leads to memory impairments, reflecting their likely contribution to neurological disorders.
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活动依赖性Homer在突触可塑性中的调节和功能
突触信号和可塑性的改变发生在发育过程中神经回路的完善和成人的学习和记忆过程中。突触可塑性需要蛋白复合物在突触后密度(PSD)中的重排、受体和离子通道的运输以及新蛋白的合成。活性诱导的短Homer蛋白,Homer1a和Ania-3,被招募到活跃的兴奋性突触,在那里它们作为组成性表达的,较长的Homer亚型的主要负调节因子。Homer1a和Ania-3的表达启动PSD重塑、谷氨酸受体介导的功能调节和钙信号的调控等关键过程。总之,现有的数据支持Homer1a和Ania-3负责突触后信号复合物的选择性,短暂的不稳定,以促进兴奋性突触的可塑性。依赖活动的荷马蛋白的中断破坏了与疾病相关的过程,导致记忆障碍,反映了它们可能对神经系统疾病的贡献。
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