关键词: 三叉神经节神经元, 渗透压浓度, 电压门控钠离子通道, 电生理特性

Abstract:

Objective To evaluate the biomechanical effects of intracellular changes on the voltage-gated sodium channels（VGSCs） on trigeminal ganglion neuron（TRGN）. Methods TRGN cells were acutely isolated from the neonatal SD rats. The voltage-dependent currents of the VGSCs on these neurons were elicited and analyzed by whole-cell patch-clamp recordings and the intracellular anisotonicity stimuli was established by adjusting the content of pipette solution. The effects of hypo-（260 mOsm） and hypertonic（350 mOsm） osmolarity on the activation and inactivation kinetics of VGSCs on TRGN were evaluated, compared with the normal intracellular environment. Results The results demonstrated that intracellular hypotonic stimuli could influence both the activation and inactivation characteristics of VGSCs currents, including the membrane potential at half inactivation（V0. 5） of the G-V and inactivation curves had obvious statistics significance（P<0.05） between hypotonicity（260 mOsm） and isotonicity（306 mOsm）. However, only inactivation properties changed under intracellular hypertonic effects, including inactivation rate and k value. Conclusion It suggests that the kinetics of VGSCs on TRGN can be modulated both by intracellular hypo- and hypertonic with different characteristics.

Key words: trigeminal ganglion neuron, osmolality, voltage-gated sodium channels, electrophysiology