Frequency-dependent layer-specific differences in short-term synaptic plasticity in the dorsal and ventral CA1 hippocampal field.

IF 1.6 4区 医学 Q4 NEUROSCIENCES
Synapse Pub Date : 2021-07-01 Epub Date: 2021-03-09 DOI:10.1002/syn.22199
Andriana Koutsoumpa, Costas Papatheodoropoulos
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引用次数: 4

Abstract

Information from the entorhinal cortex arrives to the hippocampal CA1 microcircuit directly through the temporoammonic path (TA) that terminates in the stratum lacunosum-moleculare (SLM), and indirectly through Schaffer collateral pathway (SC) that terminates in the stratum radiatum (SR). By virtue of this input convergence, CA1 circuitry may act to compare and integrate incoming cortical information. Although a remarkable dorsal-ventral difference in short-term plasticity (STP) has been recently described at SC-CA1 synapses, the corresponding properties at TA-CA1 synapses have not been examined. Here, we report that stimulation of TA in the dorsal hippocampus produces significant facilitation of all conditioned responses evoked by 1-30 Hz, peaking at 20-30 Hz, and significant depression of steady-state responses to 50-100 Hz. Dorsal SC-CA1 synapses display a similar pattern of responses, yet, facilitation peaked at 10 Hz and depression (at 75-100 Hz) is weaker. Strikingly, stimulation of TA in the ventral hippocampus produces facilitation of steady-state responses to 1-30 Hz and highly contrasts with the depression of SC-CA1 synapses. Steady-state responses to 40-100 Hz in the ventral hippocampus depress in both layers similarly. High-frequency TA input (40-100 Hz) to the dorsal hippocampus depresses more in proximal than in distal SLM, while low-frequency (1-3 Hz) TA input to the ventral hippocampus facilitates more in distal than in proximal SLM. The present evidence suggests that direct and indirect entorhinal cortical inputs across the septotemporal extent of hippocampal CA1 field display frequency selectivity both in the radial and transverse axes, and that a rapid information processing may take place through direct ventral hippocampal CA1-EC circuit interactions independently of trisynaptic circuit.

海马背侧和腹侧CA1区短期突触可塑性的频率依赖层特异性差异。
来自内嗅皮层的信息直接通过终止于腔隙-分子层(SLM)的颞氨通路(TA)到达海马CA1微回路,间接通过终止于辐射层(SR)的Schaffer侧枝通路(SC)到达海马CA1微回路。由于这种输入收敛性,CA1电路可以比较和整合输入的皮质信息。尽管最近在SC-CA1突触中发现了显著的背侧-腹侧短期可塑性差异,但TA-CA1突触的相应特性尚未得到研究。在这里,我们报道了在海马背侧刺激TA对1-30 Hz诱发的所有条件反应产生显著的促进作用,在20-30 Hz达到峰值,并显著抑制50-100 Hz的稳态反应。背侧SC-CA1突触表现出类似的反应模式,然而,促进在10 Hz时达到峰值,而抑制(75-100 Hz)较弱。引人注目的是,刺激腹侧海马体的TA会促进1-30 Hz的稳态反应,与SC-CA1突触的抑制形成鲜明对比。在40-100 Hz时,两层海马的稳态反应都受到类似的抑制。背侧海马高频(40-100 Hz) TA输入对近端SLM的抑制作用大于远端SLM,而腹侧海马低频(1-3 Hz) TA输入对远端SLM的抑制作用大于近端SLM。目前的证据表明,直接和间接的内嗅皮层输入在海马CA1场的中隔颞叶范围内在径向和横向轴上都表现出频率选择性,并且可能通过海马腹侧CA1- ec回路的直接相互作用而独立于三突触回路进行快速的信息处理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Synapse
Synapse 医学-神经科学
CiteScore
3.80
自引率
0.00%
发文量
38
审稿时长
4-8 weeks
期刊介绍: SYNAPSE publishes articles concerned with all aspects of synaptic structure and function. This includes neurotransmitters, neuropeptides, neuromodulators, receptors, gap junctions, metabolism, plasticity, circuitry, mathematical modeling, ion channels, patch recording, single unit recording, development, behavior, pathology, toxicology, etc.
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