在哺乳动物细胞中表达的人源和鼠源囊性纤维化跨膜传导调节因子氯离子通道门控行为的比较。
Comparison of the gating behaviour of human and murine cystic fibrosis transmembrane conductance regulator Cl- channels expressed in mammalian cells.
作者信息
Lansdell K A, Delaney S J, Lunn D P, Thomson S A, Sheppard D N, Wainwright B J
机构信息
Human Genetics Unit, Department of Medicine, University of Edinburgh, Molecular Medicine Centre, Western General Hospital, Edinburgh EH4 2XU, UK.
出版信息
J Physiol. 1998 Apr 15;508 ( Pt 2)(Pt 2):379-92. doi: 10.1111/j.1469-7793.1998.379bq.x.
Abstract
- To investigate the function of the murine cystic fibrosis transmembrane conductance regulator (CFTR), a full-length cDNA encoding wild-type murine CFTR was assembled and stably expressed in Chinese hamster ovary (CHO) cells. 2. Like human CFTR, murine CFTR formed Cl- channels that were regulated by cAMP-dependent phosphorylation and intracellular ATP. However, murine CFTR Cl- channels had a reduced single-channel conductance and decreased open probability (Po) compared with those of human CFTR. 3. Analysis of the dwell time distributions of single channels suggested that the reduced Po of murine CFTR was caused by both decreased residence in the open state and transitions to a new closed state, described by an intermediate closed time constant. 4. For both human and murine CFTR, ATP and ADP regulated the rate of exit from the long-lived closed state. 5. 5'-Adenylylimidodiphosphate (AMP-PNP) and pyrophosphate, two compounds that disrupt cycles of ATP hydrolysis, stabilized the open state of human CFTR. However, neither agent locked murine CFTR Cl- channels open, although AMP-PNP increased the Po of murine CFTR. 6. The data indicate that although human and murine CFTR have many properties in common, some important differences in function are observed. These differences could be exploited in future studies to provide new understanding about CFTR.
摘要
- 为了研究小鼠囊性纤维化跨膜传导调节因子(CFTR)的功能,构建了编码野生型小鼠CFTR的全长cDNA,并在中国仓鼠卵巢(CHO)细胞中稳定表达。2. 与人类CFTR一样,小鼠CFTR形成了受cAMP依赖性磷酸化和细胞内ATP调节的氯离子通道。然而,与人类CFTR相比,小鼠CFTR氯离子通道的单通道电导降低,开放概率(Po)下降。3. 单通道驻留时间分布分析表明,小鼠CFTR的Po降低是由于开放状态下的驻留时间减少以及向一种新的关闭状态转变所致,这种新的关闭状态由一个中间关闭时间常数来描述。4. 对于人类和小鼠CFTR,ATP和ADP都调节从长寿命关闭状态退出的速率。5. 5'-腺苷酰亚胺二磷酸(AMP-PNP)和焦磷酸这两种破坏ATP水解循环的化合物,稳定了人类CFTR的开放状态。然而,尽管AMP-PNP增加了小鼠CFTR的Po,但这两种试剂都不能使小鼠CFTR氯离子通道保持开放。6. 数据表明,尽管人类和小鼠CFTR有许多共同特性,但在功能上也观察到一些重要差异。这些差异可在未来研究中加以利用,以增进对CFTR的新认识。
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