Powell Craig M
Department of Neurology, The University of Texas, Southwestern Medical Center, Dallas, TX 75225, USA.
Neurobiol Learn Mem. 2006 Jan;85(1):2-15. doi: 10.1016/j.nlm.2005.08.014. Epub 2005 Oct 14.
The past few decades have seen an explosion in our understanding of the molecular basis of learning and memory. The majority of these studies in mammals focused on post-synaptic signal transduction cascades involved in post-synaptic long-lasting plasticity. Until recently, relatively little work examined the role of presynaptic proteins in learning and memory in complex systems. The synaptic cleft figuratively represents a "great divide" between our knowledge of post- versus presynaptic involvement in learning and memory. While great strides have been made in our understanding of presynaptic proteins, we know very little of how presynaptically expressed forms of short- and long-term plasticity participate in information processing and storage. The paucity of cognitive behavioral research in the area of presynaptic proteins, however, is in stark contrast to the plethora of information concerning presynaptic protein involvement in neurotransmitter release, in modulation of release, and in both short- and long-term forms of presynaptic plasticity. It is now of great interest to begin to link the extensive literature on presynaptic proteins and presynaptic plasticity to cognitive behavior. In the future there is great promise with these approaches for identifying new targets in the treatment of cognitive disorders. This review article briefly surveys current knowledge on the role of presynaptic proteins in learning and memory in mammals and suggests future directions in learning and memory research on the presynaptic rim of the "great divide."
在过去几十年里,我们对学习和记忆的分子基础的理解有了爆发式增长。在哺乳动物中,这些研究大多聚焦于参与突触后长期可塑性的突触后信号转导级联反应。直到最近,在复杂系统中研究突触前蛋白在学习和记忆中的作用的工作还相对较少。突触间隙形象地代表了我们对学习和记忆中突触后与突触前参与情况的了解之间的“巨大鸿沟”。虽然我们对突触前蛋白的理解取得了很大进展,但我们对突触前表达的短期和长期可塑性形式如何参与信息处理和存储却知之甚少。然而,突触前蛋白领域认知行为研究的匮乏,与关于突触前蛋白参与神经递质释放、释放调节以及突触前可塑性的短期和长期形式的大量信息形成了鲜明对比。现在,将关于突触前蛋白和突触前可塑性的大量文献与认知行为联系起来变得非常有趣。未来,这些方法在识别认知障碍治疗新靶点方面有很大前景。这篇综述文章简要概述了目前关于突触前蛋白在哺乳动物学习和记忆中的作用的知识,并提出了在“巨大鸿沟”的突触前边缘进行学习和记忆研究的未来方向。