Abstract

Epicatechin (EpiC) enhances long-term memory (LTM) formation in the pond snail Lymnaea stagnalis. Here we investigated at the level of a single neuron, RPeD1, which is a necessary site for LTM formation of operant conditioning of aerial respiration, how EpiC may bring about its enhancing effect on LTM formation. When snails were operantly conditioned in EpiC (15 mg/l) by a single 0.5 h training session, which typically only results in memory lasting ∼3 h, they now formed LTM lasting at least 24 h. We recorded from RPeD1 in semi-intact preparations made from snails 24 h after a single 0.5 h training session in EpiC or pond water (PW) and found that the firing and bursting rate of RPeD1 decreased significantly in the EpiC preparations compared to the PW preparations. However, the excitability (i.e., number of spikes evoked by injected depolarizing current) of RPeD1 was not different between the two preparations. We next performed "in vitro" operant training in semi-intact preparations made from naïve snails. In the training, we applied a gentle tactile stimulus to the pneumostome area every time the semi-intact preparation began to open. The preparations exposed to EpiC-saline (15 mg/l) exhibited significantly increased RPeD1 excitability compared with saline only preparations. These results suggest that EpiC can alter some electrophysiological properties of a neuron that is a necessary site for learning and memory formation.

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