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不同形式的长时程增强诱导中动作电位的不同要求。

Different requirements for action potentials in the induction of different forms of long-term potentiation.

作者信息

Raymond Clarke R

机构信息

Division of Neuroscience, The John Curtin School of Medical Research, The Australian National University, Canberra, ACT 0200, Australia.

出版信息

J Physiol. 2008 Apr 1;586(7):1859-65. doi: 10.1113/jphysiol.2008.151035. Epub 2008 Feb 14.

DOI:10.1113/jphysiol.2008.151035
PMID:18276728
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2375736/
Abstract

The role of postsynaptic action potentials (APs) in the induction of long-term potentiation (LTP) remains unclear, but has important implications for theories of associative learning in the brain. In area CA1 of hippocampus, at least three discrete forms of LTP coexist, each displaying unique decay kinetics and involving different signalling and effector systems. The present work investigates whether these forms of LTP also differ in their requirement for postsynaptic APs. Inhibition of APs during theta-burst stimulation (TBS) had no effect on the persistence of short-lasting LTP (LTP 1), but reduced the persistence of more durable forms (LTP 2 and 3). Calcium imaging revealed different requirements for APs in generating calcium signals in spines, dendrites, and somata, consistent with their known roles in the induction of each form of LTP. Finally, short-lasting LTP was endowed with dramatically enhanced persistence by the presentation of TBS-patterned APs alone. These data reveal that the requirement for APs in LTP induction is dependent on the form of LTP under investigation, supporting the contention that different neuronal learning mechanisms coexist in hippocampal area CA1.

摘要

突触后动作电位(APs)在长时程增强(LTP)诱导中的作用仍不清楚,但对大脑中联想学习的理论具有重要意义。在海马体的CA1区,至少三种不同形式的LTP共存,每种形式都表现出独特的衰减动力学,并涉及不同的信号传导和效应系统。目前的研究探讨了这些形式的LTP在对突触后APs的需求上是否也存在差异。在theta波爆发刺激(TBS)期间抑制APs对短时程LTP(LTP 1)的持续性没有影响,但降低了更持久形式(LTP 2和LTP 3)的持续性。钙成像显示,在棘突、树突和胞体中产生钙信号时,对APs的需求不同,这与其在每种形式LTP诱导中的已知作用一致。最后,仅通过呈现TBS模式的APs,短时程LTP的持续性就显著增强。这些数据表明,LTP诱导中对APs的需求取决于所研究的LTP形式,支持了海马体CA1区存在不同神经元学习机制的观点。

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