The Influence of Furosemide on the Currents of the Delayed Rectification Potassium Channels and Sodium Channels of Mice's Spiral Ganglion Neurons
- VernacularTitle:速尿对小鼠螺旋神经节神经元细胞钾、钠通道电流的影响
- Author:
Jiahong DENG
;
Li YANG
;
Hequn JIANG
;
Chunchun CAI
- Publication Type:Journal Article
- Keywords:
Spiral ganglion neuron;
Furosemide;
Delayed rectification potassium channel;
Sodium channel
- From:
Journal of Audiology and Speech Pathology
1998;0(03):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To study the influence of furosemide on the currents of the delayed rectification potassium channel and sodium channel of mice's spiral ganglion neurons.Methods Postnatal mice(P1~P6) spiral ganglion neurons were obtained by mechanical dissociation and enzymolysis.Delayed rectification potassium channels' currents and sodium channels' currents were recorded with whole-cell patch clamp techniques.Observed was the influence of furosemide on potassium channels and sodium channels.Results When furosemide was added around the spiral ganglion neurons,the delayed rectification potassium currents were inhibited to around +200~+300 pA,and sodium currents were inhibited to about 30% of peak current.Furosemide was washed away after working steadily for 1 minute,5 and 10 minutes.The delayed rectification potassium currents could recover to 98%,64%,and 25% of the peak currents before and sodium currents could recover to 96%,76% and 54% of the peak currents accordingly.Conclusion The currents of delayed rectification potassium channels and sodium channels could be inhibited by furosemide to different degrees.The longer furosemide was used,the greater damage could occur in the ion channels.
