质子可激活大鼠背根神经节神经元亚群中的一种阳离子电导。
Protons activate a cation conductance in a sub-population of rat dorsal root ganglion neurones.
作者信息
Bevan S, Yeats J
机构信息
Sandoz Institute for Medical Research, London.
出版信息
J Physiol. 1991 Feb;433:145-61. doi: 10.1113/jphysiol.1991.sp018419.
Abstract
- The responses of adult and neonatal rat dorsal root ganglion (DRG) neurones to buffered acidic solutions were studied with both voltage clamp and radioactive ion flux techniques. Electrophysiological experiments were made on acutely isolated neurones and ion flux experiments were made on cells that had been in culture for 3-6 days. 2. Acid solutions of pH < 6.2 evoked a sustained, slowly inactivating inward current in neurones voltage clamped at negative holding potentials. The size of the current increased with increasing proton concentrations. This response was restricted to a sub-population (approximately 45%) of adult and neonatal rat DRG neurones and was distinct from a rapidly activating and inactivating proton-induced inward sodium current that was also found in DRG neurones. 3. The proton-activated sustained current was due to an increase in cation conductance that allowed K+, Cs+ and Na+ to pass with PK/PNa = 1.32 and PCs/PNa = 1.12. 4. Radioactive ion efflux experiments made on neonatal rat cultured DRG neurones showed that protons also increased the permeability to both [14C]guanidinium and 86Rb+ ions. The half-maximal increase in efflux rate for 86Rb+ occurred at pH 5.8. Acid solution also stimulated the efflux of 86Rb+ in cultures of adult rat neurones. 5. Cells that showed a late, sustained proton-activated current also responded to capsaicin. In addition, no proton-activated fluxes of either [14C]guanidinium or 86Rb+ ions were observed in cultures of DRG neurones that had been treated with high concentrations of capsaicin (10 microM) to kill the capsaicin-sensitive neurones. Thus this proton-activated current is restricted largely, if not exclusively, to capsaicin-sensitive peripheral sensory neurones.
摘要
- 采用电压钳和放射性离子通量技术研究了成年和新生大鼠背根神经节(DRG)神经元对缓冲酸性溶液的反应。对急性分离的神经元进行电生理实验,对培养3 - 6天的细胞进行离子通量实验。2. pH < 6.2的酸性溶液在负的钳制电位下能诱发成年和新生大鼠DRG神经元产生持续、缓慢失活的内向电流。电流大小随质子浓度增加而增大。这种反应仅限于成年和新生大鼠DRG神经元的一个亚群(约45%),且不同于DRG神经元中也存在的快速激活和失活的质子诱导内向钠电流。3. 质子激活的持续电流是由于阳离子电导增加,使得K⁺、Cs⁺和Na⁺能够通过,PK/PNa = 1.32,PCs/PNa = 1.12。4. 对新生大鼠培养的DRG神经元进行的放射性离子外流实验表明,质子也增加了对[¹⁴C]胍离子和⁸⁶Rb⁺离子的通透性。⁸⁶Rb⁺外流速率增加到最大值一半时的pH为5.8。酸性溶液也刺激成年大鼠神经元培养物中⁸⁶Rb⁺的外流。5. 表现出延迟、持续的质子激活电流的细胞也对辣椒素产生反应。此外,在用高浓度辣椒素(10 μM)处理以杀死辣椒素敏感神经元的DRG神经元培养物中,未观察到[¹⁴C]胍离子或⁸⁶Rb⁺离子的质子激活通量。因此,这种质子激活电流如果不是完全,也主要限于辣椒素敏感的外周感觉神经元。
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