The dependence of acetylcholine on dynamic changes in the membrane potential and an action potential during spike timing‐dependent plasticity induction in the hippocampus

Eriko Sugisaki; Yasuhiro Fukushima; Naoki NakajimaTakeshi Aihara

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The dependence of acetylcholine on dynamic changes in the membrane potential and an action potential during spike timing‐dependent plasticity induction in the hippocampus

机译：The dependence of acetylcholine on dynamic changes in the membrane potential and an action potential during spike timing‐dependent plasticity induction in the hippocampus

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Abstract The hippocampus is an important area for memory encoding and retrieval and is the location of spike timing‐dependent plasticity (STDP), a basic phenomenon of learning and memory. STDP is facilitated if acetylcholine (ACh) is released from cholinergic neurons during attentional processes. However, it is unclear how ACh influences postsynaptic changes during STDP induction and determines the STDP magnitude. To address these issues, we obtained patch clamp recordings from CA1 pyramidal neurons to evaluate the postsynaptic changes during stimuli injection in Schaffer collaterals by quantifying baseline amplitudes (i.e., the lowest values elicited by paired pulses comprising STDP stimuli) and action potentials. The results showed that baseline amplitudes were elevated if eserine was applied in the presence of picrotoxin. In addition, muscarinic ACh receptors (mAChRs) contributed more to the baseline amplitude elevation than nicotinic AChRs (nAChRs). Moreover, the magnitude of the STDP depended on the magnitude of the baseline amplitude. However, in the absence of picrotoxin, baseline amplitudes were balanced, regardless of the ACh concentration, resulting in a similar magnitude of the STDP, except under the nAChR alone‐activated condition, which showed a larger STDP and lower baseline amplitude induction. This was due to broadened widths of action potentials. These results suggest that activation of mAChRs and nAChRs, which are effective for baseline amplitudes and action potentials, respectively, plays an important role in postsynaptic changes during memory consolidation.

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来源
《The European journal of neuroscience.》 |2022年第11期|5972-5986|共15页
作者
Eriko Sugisaki; Yasuhiro Fukushima; Naoki NakajimaTakeshi Aihara;
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作者单位

Brain Science Institute,Tamagawa University;

Graduated School of Engineering,Tamagawa University;

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正文语种英语
中图分类神经病学与精神病学;
关键词
acetylcholine; CA1; hippocampus; spike timing‐dependent plasticity;

The dependence of acetylcholine on dynamic changes in the membrane potential and an action potential during spike timing‐dependent plasticity induction in the hippocampus

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