Dynamic Analysis of the Conditional Oscillator Underlying Slow Waves in Thalamocortical Neurons - Neuronal Networks and Physiophatological Rhythms
Article Dans Une Revue Frontiers in Neural Circuits Année : 2016

Dynamic Analysis of the Conditional Oscillator Underlying Slow Waves in Thalamocortical Neurons

Résumé

During non-REM sleep the EEG shows characteristics waves that are generated by the dynamic interactions between cortical and thalamic oscillators. In thalamic neurons, low-threshold T-type Ca 2+ channels play a pivotal role in almost every type of neuronal oscillations, including slow (<1 Hz) waves, sleep spindles and delta waves. The transient opening of T channels gives rise to the low threshold spikes (LTSs), and associated high frequency bursts of action potentials, that are characteristically present during sleep spindles and delta waves, whereas the persistent opening of a small fraction of T channels, (i.e., I Twindow) is responsible for the membrane potential bistability underlying sleep slow oscillations. Surprisingly thalamocortical (TC) neurons express a very high density of T channels that largely exceed the amount required to generate LTSs and therefore, to support certain, if not all, sleep oscillations. Here, to clarify the relationship between T current density and sleep oscillations, we systematically investigated the impact of the T conductance level on the intrinsic rhythmic activities generated in TC neurons, combining in vitro experiments and TC neuron simulation. Using bifurcation analysis, we provide insights into the dynamical processes taking place at the transition between slow and delta oscillations. Our results show that although stable delta oscillations can be evoked with minimal T conductance, the full range of slow oscillation patterns, including groups of delta oscillations separated by Up states (" grouped-delta slow waves ") requires a high density of T channels. Moreover, high levels of T conductance ensure the robustness of different types of slow oscillations.
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hal-01285034 , version 1 (08-03-2016)

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François David, Vincenzo Crunelli, Nathalie Leresche, Régis C Lambert. Dynamic Analysis of the Conditional Oscillator Underlying Slow Waves in Thalamocortical Neurons. Frontiers in Neural Circuits, 2016, 10, pp.10. ⟨10.3389/fncir.2016.00010⟩. ⟨hal-01285034⟩
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