牵张对豚鼠膀胱肌细胞全细胞电流的影响。
Stretch effects on whole-cell currents of guinea-pig urinary bladder myocytes.
作者信息
Wellner M C, Isenberg G
机构信息
Department of Physiology, University of Cologne, Germany.
出版信息
J Physiol. 1994 Nov 1;480 ( Pt 3)(Pt 3):439-48. doi: 10.1113/jphysiol.1994.sp020373.
Abstract
- By means of two patch-pipettes, isolated urinary bladder myocytes were longitudinally stretched up to 20% beyond slack length (delta L = 20%). 2. Experiments were conducted using both voltage and current clamp configurations. In current clamped cells at 23 degrees C, delta L depolarized the membrane from -50 to ca -15 mV, the amplitude of depolarization increasing with the extent of delta L. At 36 degrees C, delta L induced action potentials or increased the frequency of spontaneous action potentials. 3. In voltage clamped cells at a holding potential of -50 mV, stretch induced an inward current (Iin) and increased the input conductance. Both effects increased with delta L. They were blocked by 40 microM gadolinium, suggesting stretch activation of non-selective cation channels (SACs) as the underlying mechanism. 4. Stretch-induced difference currents rectified outwardly and reversed at a reversal potential (Erev) of -28 +/- 10 mV. Twenty millimolar [TEA]o suppressed the rectification and shifted Erev to 0 +/- 1 mV. The result suggests that stretch can activate not only SACs but also TEA-sensitive K+ channels. 5. Stretch changed the net current due to clamp steps to 0 mV as though it increased the potassium current (IK) and reduced the calcium current (ICa). While 20 mM intracellular BAPTA did not modify the stretch-induced whole-cell inward current (Iin) at -50 mV, it suppressed the stretch effects on IK and ICa as if these effects were mediated by an increase in the subsarcolemmal Ca2+ concentration. 6. The results support the hypothesis that longitudinal stretch can activate SACs and Ca2+ influx through them. In non-clamped cells, stretch can also modulate Ca2+ influx through L-type Ca2+ channels via changes in membrane potential.
摘要
- 通过两根膜片吸管,将分离的膀胱肌细胞纵向拉伸至超过松弛长度20%(ΔL = 20%)。2. 实验采用电压钳和电流钳配置进行。在23℃的电流钳制细胞中,ΔL使膜电位从 -50mV去极化至约 -15mV,去极化幅度随ΔL程度增加。在36℃时,ΔL诱导动作电位或增加自发动作电位频率。3. 在 -50mV的钳制电位下的电压钳制细胞中,拉伸诱导内向电流(Iin)并增加输入电导。两种效应均随ΔL增加。它们被40μM钆阻断,提示非选择性阳离子通道(SACs)的拉伸激活是潜在机制。4. 拉伸诱导的差异电流向外整流,在 -28±10mV的反转电位(Erev)处反转。20mM细胞外[TEA]抑制整流并使Erev移至0±1mV。结果表明拉伸不仅可激活SACs,还可激活对TEA敏感的K⁺通道。5. 拉伸改变了因钳制至0mV步骤而产生的净电流,就好像它增加了钾电流(IK)并减少了钙电流(ICa)。虽然20mM细胞内BAPTA在 -50mV时未改变拉伸诱导的全细胞内向电流(Iin),但它抑制了拉伸对IK和ICa的影响,好像这些影响是由肌膜下Ca²⁺浓度增加介导的。6. 结果支持以下假设:纵向拉伸可激活SACs并通过它们使Ca²⁺内流。在非钳制细胞中,拉伸还可通过膜电位变化调节通过L型Ca²⁺通道的Ca²⁺内流。
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