高细胞内氯离子浓度会延迟小鼠L型成纤维细胞中容积敏感性氯通道的激活。
High intracellular chloride delays the activation of the volume-sensitive chloride conductance in mouse L-fibroblasts.
作者信息
Doroshenko P
机构信息
Loeb Research Institute, University of Ottawa, Ottawa, Canada.
出版信息
J Physiol. 1999 Jan 15;514 ( Pt 2)(Pt 2):437-46. doi: 10.1111/j.1469-7793.1999.437ae.x.
Abstract
- The relationship between cell volume and volume-sensitive Cl- conductance during hyposmotic cell swelling of patched cells and the effects of intracellular chloride on the conductance have been studied in mouse L-fibroblasts. To this end, swelling-activated current and cell volume were measured simultaneously in cells dialysed with low-Cl- (16 mM) or high-Cl- (130 mM) solutions using the whole-cell patch-clamp technique and videomicroscopy. 2. The increase in cell volume of patched cells and the volume-sensitive conductance saturated during a 4-5 min exposure to mildly hyposmotic solutions (15-20 % less than isosmotic). The swelling of patched cells varied considerably and was greater than the swelling of intact cells. No correlation between the maximal values of the volume-sensitive conductance and the maximal volumes of swollen cells was evident for cells dialysed with the low-Cl- solutions. 3. The amplitude of the volume-sensitive conductance decreased with a reduction in either extracellular or intracellular Cl- concentration; the size of the maximal conductance was not modulated by intracellular Cl- ions. 4. The activation of the volume-sensitive conductance was slower in high-Cl- cells than in low-Cl- cells whether it was induced by hypotonic cell swelling or by cell inflation; in low-Cl- cells the conductance saturated before the cell volume had reached its maximal value. 5. It is concluded that in patched cells an increase in cell volume triggers activation of the volume-sensitive Cl- conductance but does not determine its amplitude and that the rate of activation of the conductance is affected by the intracellular Cl- concentration.
摘要
- 在小鼠L-成纤维细胞中,研究了膜片钳细胞低渗肿胀过程中细胞体积与体积敏感性氯离子电导之间的关系,以及细胞内氯离子对该电导的影响。为此,使用全细胞膜片钳技术和视频显微镜,同时测量了用低氯(16 mM)或高氯(130 mM)溶液透析的细胞中肿胀激活电流和细胞体积。2. 在暴露于轻度低渗溶液(比等渗溶液低15 - 20%)的4 - 5分钟内,膜片钳细胞的细胞体积增加和体积敏感性电导达到饱和。膜片钳细胞的肿胀差异很大,且大于完整细胞的肿胀。对于用低氯溶液透析的细胞,体积敏感性电导的最大值与肿胀细胞的最大体积之间没有明显的相关性。3. 体积敏感性电导的幅度随细胞外或细胞内氯离子浓度的降低而减小;最大电导的大小不受细胞内氯离子的调节。4. 无论是由低渗细胞肿胀还是细胞膨胀诱导,高氯细胞中体积敏感性电导的激活都比低氯细胞慢;在低氯细胞中,电导在细胞体积达到最大值之前就已饱和。5. 得出的结论是,在膜片钳细胞中,细胞体积的增加触发了体积敏感性氯离子电导的激活,但不决定其幅度,并且电导的激活速率受细胞内氯离子浓度的影响。
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