Robson L, Hunter M
Department of Physiology, Medical School, Leeds University, UK.
Pflugers Arch. 1994 Nov;429(1):98-106. doi: 10.1007/BF02584035.
Stretch-activated channels (SACs) have been implicated in the control of epithelial cell volume. Such channels are generally sensitive to the trivalent lanthanide, gadolinium (Gd3+). In this study, using Gd3+ sensitivity and volume activation as indices, we have looked for ionic currents attributable to SACs using the whole-cell-patch clamp technique in freshly isolated proximal tubule cells of the frog. Hypotonic shock caused a reversible increase in whole-cell conductance, which was inhibited by Gd3+. In conjunction with this increase in conductance, cell length (measured using an optical technique) also increased. We observed two types of volume- and Gd(3+)-sensitive currents: voltage-dependent IVD and voltage-independent IVI. IVD was found in all cells, activated by depolarisation and hypotonic shock, and was inhibited reversibly by 10 microM Gd3+. The conductance did not discriminate between Na+ and K+ but was slightly anion-selective and was Ca(2+)-permeable. IVI was observed in only 50% of cells and was also inhibited by Gd3+. Although the inhibition was irreversible, it was dose-dependent, suggesting a specific effect of Gd3+ on IVI. Cells that showed IVI had a significantly higher conductance than those that did not (38.7 +/- 4.4, n = 20, and 20.5 +/- 0.7, n = 15, microS.cm-2 respectively). In contrast to IVD, IVI was mildly cation-selective, Ca(2+)-permeable, and also selective for Na+ over K+. As with IVD, volume-induced increases in IVI were inhibited by Gd3+. Both of these currents are activated during hypotonic shock and may be involved in volume-regulatory processes in frog proximal cells.
牵张激活通道(SACs)与上皮细胞体积的调控有关。这类通道通常对三价镧系元素钆(Gd3+)敏感。在本研究中,我们以Gd3+敏感性和体积激活为指标,运用全细胞膜片钳技术,在刚分离的青蛙近端小管细胞中寻找可归因于SACs的离子电流。低渗休克导致全细胞电导可逆性增加,该增加被Gd3+抑制。伴随电导增加,细胞长度(采用光学技术测量)也增加。我们观察到两种对体积和Gd(3+)敏感的电流:电压依赖性IVD和电压非依赖性IVI。在所有细胞中均发现IVD,它由去极化和低渗休克激活,并被10 microM Gd3+可逆性抑制。该电导对Na+和K+无区分,但对阴离子有轻微选择性且可通透Ca(2+)。仅在50%的细胞中观察到IVI,它也被Gd3+抑制。尽管这种抑制是不可逆的,但呈剂量依赖性,提示Gd3+对IVI有特异性作用。表现出IVI的细胞其电导显著高于未表现出IVI的细胞(分别为38.7 +/- 4.4,n = 20,和20.5 +/- 0.7,n = 15,微西门子·厘米-2)。与IVD不同,IVI对阳离子有轻度选择性,可通透Ca(2+),且对Na+的选择性高于K+。与IVD一样,体积诱导的IVI增加被Gd3+抑制。这两种电流在低渗休克期间均被激活,可能参与青蛙近端细胞的体积调节过程。
