成年完整柯蒂氏器中外毛细胞的膜片钳记录反应。

Patch clamped responses from outer hair cells in the intact adult organ of Corti.

作者信息

Mammano F, Kros C J, Ashmore J F

机构信息

Department of Physiology, School of Medical Sciences, University Walk, Bristol BS8 1TD, UK.

出版信息

Pflugers Arch. 1995 Sep;430(5):745-50. doi: 10.1007/BF00386170.

DOI:10.1007/BF00386170

PMID:7478927

Abstract

Outer hair cells (OHCs) from the mammalian cochlea act as both sensory cells and motor cells. We report here whole-cell tight seal recordings of OHC activity in their natural embedding tissue, the intact organ of Corti, using a temporal bone preparation. The mean cell resting potential, -76 +/- 4 mV (n = 19) and input conductance (10 +/- 3 nS at -70 mV) of third turn hair cells were significantly lower than have been found in isolated cells. Two main K+ currents in the cell were identified. One current, activated positive to -100 mV, was reduced by 5 mM BaCl2. The other current, activated above -40 mV, was reduced by 100 microM 4-aminopyridine (4-AP) and by 30 mM tetraethylammonium (TEA). Both of these currents have been also identified in recordings reported from isolated cells. On stepping to different membrane potentials, cells imaged in the organ of Corti changed length by an amount large enough to cause visible distortions in neighbouring cells. By quantifying such distortions we estimate that the forces generated by OHCs can account for the enhanced response to sound required by the cochlear amplifier.

摘要

哺乳动物耳蜗的外毛细胞（OHCs）兼具感觉细胞和运动细胞的功能。我们在此报告，利用颞骨标本，在其天然包埋组织——完整的柯蒂氏器中，对外毛细胞活性进行全细胞膜片钳紧密封接记录。第三排毛细胞的平均细胞静息电位为-76±4 mV（n = 19），输入电导在-70 mV时为（10±3 nS）——显著低于在分离细胞中所发现的值，并鉴定出细胞内两种主要的钾离子电流。一种电流在膜电位正向至-100 mV时被激活，5 mM氯化钡可使其减小；另一种电流在膜电位高于-40 mV时被激活，并可被100 μM 4-氨基吡啶（4-AP）和30 mM四乙铵（TEA）减小。在分离细胞的记录中也鉴定出了这两种电流。当阶跃到不同的膜电位时，在柯蒂氏器中成像的细胞长度会发生足以引起相邻细胞明显形变的变化。通过对这种形变进行量化，我们估计外毛细胞产生的力能够解释耳蜗放大器对声音增强的反应。

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成年完整柯蒂氏器中外毛细胞的膜片钳记录反应。

Patch clamped responses from outer hair cells in the intact adult organ of Corti.

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