与ras诱导的细胞转化相关的钙激活钾电流的单通道研究

Single channel study of a Ca(2+)-activated K+ current associated with ras-induced cell transformation.

作者信息

Huang Y, Rane S G

机构信息

Purdue University, Department of Biological Sciences, West Lafayette, IN 47907.

出版信息

J Physiol. 1993 Feb;461:601-18. doi: 10.1113/jphysiol.1993.sp019531.

DOI:10.1113/jphysiol.1993.sp019531

PMID:7688809

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1175275/

Abstract

Ras-transformed fibroblasts have a whole-cell Ca(2+)-activated K+ current which is either absent or unavailable for activation in their non-transformed counterparts. To better understand the physiological significance of this K+ current the single channel basis for the current was characterized in ras-transformed cells. 2. More than 90% of inside-out patches from ras-transformed balb 3T3 cells had a channel type which was Ca(2+)-activated (threshold < 0.2 microM internal Ca2+), K(+)-selective (permeability ratio PNa:PK < 0.02), and inwardly rectifying in symmetric 150 mM KCl solutions (conductances at -60 and 60 mV of 33 +/- 1 and 17 +/- 1 pS respectively). Channel opening probability increased 25-50% between -60 and 60 mV due to an increase in the frequency of opening. Single K+ channels in outside-out patches were blocked by externally applied 10 mM TEA or 100 nM charybdotoxin, as were whole-cell Ca(2+)-activated K+ currents. The properties of this class of K+ channel are sufficient to account for the whole-cell Ca(2+)-activated current in ras-transformed cells. 3. Inside-out patches from C3H10T1/2 and NIH 3T3 fibroblasts transformed by the H-ras oncogene had Ca(2+)-activated K+ channels identical to those observed in K-ras-transformed balb 3T3 cells. 4. As predicted from whole-cell experiments Ca(2+)-activated K+ channels were not observed in inside-out patches from non-transformed balb 3T3 cells. The purpose of the excised patch recordings was, instead, to rule out potential technical complications with the whole-cell experiments. For instance A23187, which evoked whole-cell K+ currents in transformed cells, may not have elevated Ca2+ sufficiently to allow K+ channel activation in non-transformed cells. Another possibility was that trypsin pretreatment used to round-up cells for whole-cell recording may have preferentially disabled channels in non-transformed cells. The first problem was addressed by exposing patches from non-transformed cells to 100-1000 microM Ca2+. Excised patches were also taken from non-transformed cells which had not been exposed to trypsin. K+ channel activity was not observed under either condition. 5. Patches from both ras-transformed and non-transformed cells had a type of non-specific cation channel which was activated at internal Ca2+ concentrations > or = 100 microM. This channel was sensitive to membrane voltage, mean open time increasing from 12 to 72 ms between -90 and 90 mV.

摘要

Ras 转化的成纤维细胞具有一种全细胞 Ca(2+) 激活的 K+ 电流，而在其未转化的对应细胞中，该电流要么不存在，要么无法被激活。为了更好地理解这种 K+ 电流的生理意义，对 Ras 转化细胞中该电流的单通道基础进行了表征。2. 来自 Ras 转化的 Balb 3T3 细胞的超过 90% 的内向外膜片具有一种通道类型，该通道是 Ca(2+) 激活的（内部 Ca2+ 阈值 < 0.2 microM）、K(+) 选择性的（渗透比 PNa:PK < 0.02），并且在对称的 150 mM KCl 溶液中内向整流（在 -60 和 60 mV 时的电导分别为 33 +/- 1 和 17 +/- 1 pS）。由于开放频率增加，通道开放概率在 -60 和 60 mV 之间增加了 25 - 50%。外向外膜片中的单个 K+ 通道被外部施加的 10 mM TEA 或 100 nM 大蝎毒素阻断，全细胞 Ca(2+) 激活的 K+ 电流也是如此。这类 K+ 通道的特性足以解释 Ras 转化细胞中的全细胞 Ca(2+) 激活电流。3. 由 H-ras 癌基因转化的 C3H10T1/2 和 NIH 3T3 成纤维细胞的内向外膜片具有与在 K-ras 转化的 Balb 3T3 细胞中观察到的相同的 Ca(2+) 激活的 K+ 通道。4. 正如全细胞实验所预测的，在未转化的 Balb 3T3 细胞的内向外膜片中未观察到 Ca(2+) 激活的 K+ 通道。相反，切除膜片记录的目的是排除全细胞实验中潜在的技术并发症。例如，在转化细胞中诱发全细胞 K+ 电流的 A23187 可能没有充分提高 Ca2+ 浓度以允许未转化细胞中的 K+ 通道激活。另一种可能性是用于使细胞变圆以进行全细胞记录的胰蛋白酶预处理可能优先使未转化细胞中的通道失活。通过将未转化细胞的膜片暴露于 100 - 1000 microM Ca2+ 解决了第一个问题。也从未经胰蛋白酶处理的未转化细胞中获取切除膜片。在这两种情况下均未观察到 K+ 通道活性。5. Ras 转化和未转化细胞的膜片都有一种非特异性阳离子通道，该通道在内部 Ca2+ 浓度≥100 microM 时被激活。该通道对膜电压敏感，平均开放时间在 -90 和 90 mV 之间从 12 毫秒增加到 72 毫秒。