Intrinsic spontaneous activity and subthreshold oscillations in neurones of the rat dorsal column nuclei in culture

The basis of rhythmic activity observed at the dorsal column nuclei (DCN) is still open to debate. This study has investigated the electrophysiological properties of isolated DCN neurones deprived of any synaptic influence, using the perforated-patch technique. About half of the DCN neurones (64/130...

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Bibliographic Details
Published in:The Journal of physiology 2003-08, Vol.551 (1), p.191-205
Main Authors: Reboreda, Antonio, Sánchez, Estela, Romero, Marcos, Lamas, J Antonio
Format: Article
Language:English
Subjects:
Animals
Cell Nucleus - drug effects
Cell Nucleus - physiology
Cells, Cultured
Differential Threshold
Electric Conductivity
Electrophysiology
Neurons - drug effects
Neurons - physiology
Original
Oscillometry
Patch-Clamp Techniques
Rats
Rats, Sprague-Dawley
Riluzole - pharmacology
Sodium Channels - drug effects
Sodium Channels - physiology
Spinal Cord - drug effects
Spinal Cord - physiology
Tetraethylammonium - pharmacology
Tetrodotoxin - pharmacology
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Summary:The basis of rhythmic activity observed at the dorsal column nuclei (DCN) is still open to debate. This study has investigated the electrophysiological properties of isolated DCN neurones deprived of any synaptic influence, using the perforated-patch technique. About half of the DCN neurones (64/130) were spontaneously active. More than half of the spontaneous neurones (36/64) showed a low threshold membrane oscillation (LTO) with a mean frequency of 11.4 Hz (range: 4.3–22.1 Hz, n = 20; I = 0). Cells showing LTOs also invariably showed a rhythmic 1.2 Hz clustering activity (groups of 2–5 action potentials separated by silent LTO periods). Also, more than one-third of the silent neurones presented clustering activity, always accompanied by LTOs, when slightly depolarised. The frequency of LTOs was voltage dependent and could be abolished by TTX (0.5 μM) and riluzole (30 μM), suggesting the participation of a sodium current. LTOs were also abolished by TEA (15 mM), which transformed clustering into tonic activity. In voltage clamp, most DCN neurones (85 %) showed a TTX-/riluzole-sensitive persistent sodium current ( I Na,p ), which activated at about -60 mV and had a half-maximum activation at −49.8 mV. An M-like, non-inactivating outward current was present in 95 % of DCN neurones, and TEA (15 mM) inhibited this current by 73.7 %. The non-inactivating outward current was also inhibited by barium (1 mM) and linopirdine (10 μM), which suggests its M-like nature; both drugs failed to block the LTOs, but induced a reduction in their frequency by 56 and 20 %, respectively. These results demonstrate for the first time that DCN neurones have a complex and intrinsically driven clustering discharge pattern, accompanied by subthreshold membrane oscillations. Subthreshold oscillations rely on the interplay of a persistent sodium current and a non-inactivating TEA-sensitive outward current.
ISSN:0022-3751
1469-7793
DOI:10.1113/jphysiol.2003.039917