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Journal of Southern Medical University ; (12): 204-209, 2016.
Article Dans Chinois | WPRIM | ID: wpr-273787

Résumé

<p><b>OBJECTIVE</b>To investigate the rebound depolarization of substantia gelatinosa (SG) neurons in rat spinal dorsal horn and explore its modulatory mechanisms to provide better insights into rebound depolarization-related diseases.</p><p><b>METHODS</b>Parasagittal slices of the spinal cord were prepared from 3- to 5-week-old Sprague-Dawley rats. The electrophysiologic characteristics and responses to hyperpolarization stimulation were recorded using whole-cell patch-clamp technique. The effects of hyperpolarization-activated cyclic nucleotide gated cation (HCN) channel blockers and T-type calcium channel blockers on rebound depolarization of the neurons were studied.</p><p><b>RESULTS</b>A total of 63 SG neurons were recorded. Among them, 23 neurons showed no rebound depolarization, 19 neurons showed rebound depolarization without spikes, and 21 neurons showed rebound depolarization with spikes. The action potential thresholds of the neurons without rebound depolarization were significantly higher than those of the neurons with rebound depolarization and spikes (-28.7∓1.6 mV vs -36.0∓2.0 mV, P<0.05). The two HCN channel blockers CsCl and ZD7288 significantly delayed the latency of rebound depolarization with spike from 45.9∓11.6 ms to 121.6∓51.3 ms (P<0.05) and from 36.2∓10.3 ms to 73.6∓13.6 ms (P<0.05), respectively. ZD7288 also significantly prolonged the latency of rebound depolarization without spike from 71.9∓35.1 ms to 267.0∓68.8 ms (P<0.05). The T-type calcium channel blockers NiCl2 and mibefradil strongly decreased the amplitude of rebound depolarization with spike from 19.9∓6.3 mV to 9.5∓4.5 mV (P<0.05) and from 26.1∓9.4 mV to 15.5∓5.0 mV (P<0.05), respectively. Mibefradil also significantly decreased the amplitude of rebound depolarization without spike from 14.3∓3.0 mV to 7.9∓2.0 mV (P<0.05).</p><p><b>CONCLUSION</b>Nearly two-thirds of the SG neurons have rebound depolarizations modulated by HCN channel and T-type calcium channel.</p>


Sujets)
Animaux , Rats , Potentiels d'action , Inhibiteurs des canaux calciques , Pharmacologie , Canaux calciques de type T , Polarité de la cellule , Césium , Pharmacologie , Chlorures , Pharmacologie , Canaux cationiques contrôlés par les nucléotides cycliques , Neurones , Biologie cellulaire , Techniques de patch-clamp , Pyrimidines , Pharmacologie , Rat Sprague-Dawley , Corne dorsale de la moelle spinale , Biologie cellulaire , Substance gélatineuse , Biologie cellulaire
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