Abstract
Behavioural experience, such as environmental enrichment (EE), induces long-term effects on learning and memory. Learning can be assessed with the Hebbian paradigm, such as spike-timing-dependent plasticity (STDP), which relies on the timing of neuronal activity on either side of the synapse. Although EE is known to control neuronal excitability and consequently spike timing, whether EE shapes STDP remains unknown. Here, using in vivo long-duration intracellular recordings at the corticostriatal synapses we show that EE promotes asymmetric anti-Hebbian STDP, i.e. spike-timing-dependent-potentiation (tLTP) for post-pre pairings and spike-timing-dependent-depression (tLTD) for pre-post pairings, whereas animals grown in standard housing show mainly tLTD and a high failure rate of plasticity. Indeed, in adult rats grown in standard conditions, we observed unidirectional plasticity (mainly symmetric anti-Hebbian tLTD) within a large temporal window (~200 ms). However, rats grown for two months in EE displayed a bidirectional STDP (tLTP and tLTD depending on spike timing) in a more restricted temporal window (~100 ms) with low failure rate of plasticity. We also found that the effects of EE on STDP characteristics are influenced by the anaesthesia status: the deeper the anaesthesia, the higher the absence of plasticity. These findings establish a central role for EE and the anaesthetic regime in shaping in vivo, a synaptic Hebbian learning rule such as STDP.
Highlights
Behavioural experience, such as environmental enrichment (EE), induces long-term effects on learning and memory
In contrast to standard environment (SE) conditions, in which tLTD dominates and tLTP occurrence is lower than the failure of plasticity (SE & deep anaesthesia: 47% tLTD, 16% tLTP, 38% no plasticity, n = 32; SE & light anaesthesia: 55% tLTD, 18% tLTP, 27% no plasticity, n = 11), in EE rats tLTP occurrence is larger than the failure rate of plasticity, while tLTD remains stable (EE & deep anaesthesia: 44% tLTD, 28% tLTP, 28% no plasticity, n = 18; EE & light anaesthesia: 47% tLTD, 40% tLTP, 13% no plasticity, n = 15); here, we considered data harvested for −100 < ΔtSTDP < +100 ms
We found that deep anaesthesia prevented tLTP expression to the benefit of tLTD
Summary
Behavioural experience, such as environmental enrichment (EE), induces long-term effects on learning and memory. We found that the effects of EE on STDP characteristics are influenced by the anaesthesia status: the deeper the anaesthesia, the higher the absence of plasticity These findings establish a central role for EE and the anaesthetic regime in shaping in vivo, a synaptic Hebbian learning rule such as STDP. We aimed at examining the effects of EE on STDP temporal rules in the dorsolateral striatum in vivo For this purpose, we performed in vivo long-duration intracellular recordings (sharp pipette electrode) of striatal projecting neurons (the medium-sized spiny neurons, MSNs) to investigate STDP in rats grown in standard environment (SE) or EE with various anaesthetic regimes (deep vs light levels of anaesthesia). EE promotes bidirectional STDP in a restricted temporal window with high rate of plasticity expression
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