极性电流对豚鼠耳蜗毛细胞膜电反应特性的影响——在体研究

Effects of polarizing currents on hair cell membrane responses in guinea pigs

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摘要目的在体研究不同极性电流对耳蜗毛细胞感受器电位和频率响应的影响。方法在成功建立豚鼠耳蜗毛细胞电反应记录方法后,将不同的极性电流通过微电极施加于被记录毛细胞,观察毛细胞频率响应和感受器电位的变化。结果超极化电流对内毛细胞(IHCs)、外毛细胞(OHCs)感受器电位的交流(AC)反应有明显增加作用,而去极化电流则使之减小。但极性电流对内、外毛细胞的去极化和超极化反应的影响是不对称的。用±1.0nA极性电流对支持细胞AC和耳蜗中阶的反应均无影响。结论认为毛细胞感受器电位的变化是由于极性电流改变了毛细胞侧膜电阻,毛细胞在耳蜗中作为一低通滤波器起作用。 Objective To study changes in hair cell receptor potentials and frequency response by polarizing currents in the guinea pig. Methods In vivo recordings of receptor potentials and frequency response were made intracellularly in cells of the Organ of Corti with or without constant polarizing current injection into the cells through the recording electrode. Results All cell responses were enhanced by hyperpolarization and decreased by depolarization. IHCs and OHCs showed somewhat different response patterns. Hyperpolarizing currents had a stronger effect on changing AC responses in IHCs than depolarizing currents. The opposite asymmetry characterized OHC receptor potential changes. In addition, the largest changes were seen at low frequencies and current-induced changes showed a trend toward a constant high-frequency asymptote between 1 - 2 kHz. Conclusion It is believed that the response changes induced by polarizing currents are due to changes in electric resistance of the basolateral cell membrane. The cochlear hair cells apparently work as a low-band filter

作者武文明赵建东苏钰刘明波刘良发王嘉陵杨仕明

机构地区中国人民解放军总医院耳鼻咽喉-头颈外科

出处《中华耳科学杂志》 CSCD 2011年第3期327-330,共4页 Chinese Journal of Otology

关键词毛细胞生理:微电极 Hair cell Physiology Microelectrode

分类号 R339.16 [医药卫生—人体生理学]

作者简介武文明，男，医学博士，硕士生导师，主任医师，教授。主要从事耳蜗生理研究以及耳、耳神经外科和头颈部肿瘤的临床治疗工作。

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共引文献1

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极性电流对豚鼠耳蜗毛细胞膜电反应特性的影响——在体研究

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