经颅磁刺激在锥体神经元树突中诱导的位置和频率依赖性突触可塑性的多尺度建模

Multi-scale modelling of location- and frequency-dependent synaptic plasticity induced by transcranial magnetic stimulation in the dendrites of pyramidal neurons.

作者信息

Hananeia Nicholas, Ebner Christian, Galanis Christos, Cuntz Hermann, Opitz Alexander, Vlachos Andreas, Jedlicka Peter

机构信息

Computer-Based Modelling in the field of 3R Animal Protection, Faculty of Medicine, Justus Liebig University Giessen, Giessen, Germany.

Translational Neuroscience Network Giessen, Germany.

出版信息

bioRxiv. 2024 Jul 5:2024.07.03.601851. doi: 10.1101/2024.07.03.601851.

DOI:10.1101/2024.07.03.601851

PMID:39005474

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11244966/

Abstract

BACKGROUND

Repetitive transcranial magnetic stimulation (rTMS) induces long-term changes of synapses, but the mechanisms behind these modifications are not fully understood. Although there has been progress in the development of multi-scale modeling tools, no comprehensive module for simulating rTMS-induced synaptic plasticity in biophysically realistic neurons exists..

OBJECTIVE

We developed a modelling framework that allows the replication and detailed prediction of long-term changes of excitatory synapses in neurons stimulated by rTMS.

METHODS

We implemented a voltage-dependent plasticity model that has been previously established for simulating frequency-, time-, and compartment-dependent spatio-temporal changes of excitatory synapses in neuronal dendrites. The plasticity model can be incorporated into biophysical neuronal models and coupled to electrical field simulations.

RESULTS

We show that the plasticity modelling framework replicates long-term potentiation (LTP)-like plasticity in hippocampal CA1 pyramidal cells evoked by 10-Hz repetitive magnetic stimulation (rMS). This plasticity was strongly distance dependent and concentrated at the proximal synapses of the neuron. We predicted a decrease in the plasticity amplitude for 5 Hz and 1 Hz protocols with decreasing frequency. Finally, we successfully modelled plasticity in distal synapses upon local electrical theta-burst stimulation (TBS) and predicted proximal and distal plasticity for rMS TBS. Notably, the rMS TBS-evoked synaptic plasticity exhibited robust facilitation by dendritic spikes and low sensitivity to inhibitory suppression.

CONCLUSION

The plasticity modelling framework enables precise simulations of LTP-like cellular effects with high spatio-temporal resolution, enhancing the efficiency of parameter screening and the development of plasticity-inducing rTMS protocols.

摘要

背景

重复经颅磁刺激（rTMS）可诱导突触的长期变化，但其背后的机制尚未完全明确。尽管多尺度建模工具的开发已取得进展，但尚无用于在生物物理真实神经元中模拟rTMS诱导的突触可塑性的综合模块。

目的

我们开发了一个建模框架，该框架能够复制并详细预测rTMS刺激神经元中兴奋性突触的长期变化。

方法

我们实施了一个电压依赖性可塑性模型，该模型先前已建立，用于模拟神经元树突中兴奋性突触的频率、时间和区室依赖性时空变化。该可塑性模型可纳入生物物理神经元模型并与电场模拟耦合。

结果

我们表明，可塑性建模框架可复制10Hz重复磁刺激（rMS）诱发的海马CA1锥体细胞中的长时程增强（LTP）样可塑性。这种可塑性强烈依赖距离，并集中在神经元的近端突触。我们预测，对于5Hz和1Hz方案，随着频率降低，可塑性幅度会减小。最后，我们成功模拟了局部电theta爆发刺激（TBS）时远端突触的可塑性，并预测了rMS TBS的近端和远端可塑性。值得注意的是，rMS TBS诱发的突触可塑性表现出由树突棘强烈促进且对抑制性抑制低敏感性。

结论

可塑性建模框架能够以高时空分辨率精确模拟LTP样细胞效应，提高参数筛选效率和可塑性诱导rTMS方案的开发。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ce3/11244966/01727a20f9e8/nihpp-2024.07.03.601851v1-f0001.jpg

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经颅磁刺激在锥体神经元树突中诱导的位置和频率依赖性突触可塑性的多尺度建模

Multi-scale modelling of location- and frequency-dependent synaptic plasticity induced by transcranial magnetic stimulation in the dendrites of pyramidal neurons.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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