二元蛋白激酶A位点调节囊性纤维化跨膜电导调节因子氯离子通道的爆发频率和核苷酸敏感性。
Dibasic protein kinase A sites regulate bursting rate and nucleotide sensitivity of the cystic fibrosis transmembrane conductance regulator chloride channel.
作者信息
Mathews C J, Tabcharani J A, Chang X B, Jensen T J, Riordan J R, Hanrahan J W
机构信息
Department of Physiology, McGill University, Montréal, Québec, Canada.
出版信息
J Physiol. 1998 Apr 15;508 ( Pt 2)(Pt 2):365-77. doi: 10.1111/j.1469-7793.1998.365bq.x.
Abstract
- The relationship between phosphorylation of the cystic fibrosis transmembrane conductance regulator (CFTR) chloride channel and its gating by nucleotides was examined using the patch clamp technique by comparing strongly phosphorylated wild-type (WT) channels with weakly phosphorylated mutant channels lacking four (4SA) or all ten (10SA) dibasic consensus sequences for phosphorylation by protein kinase A (PKA). 2. The open probability (Po) of strongly phosphorylated WT channels in excised patches was about twice that of 4SA and 10SA channels, after correcting for the number of functional channels per patch by addition of adenylylimidodiphosphate (AMP-PNP). The mean burst durations of WT and mutant channels were similar, and therefore the elevated Po of WT was due to its higher bursting rate. 3. The ATP dependence of the 10SA mutant was shifted to higher nucleotide concentrations compared with WT channels. The relationship between Po and [ATP] was noticeably sigmoid for 10SA channels (Hill coefficient, 1.8), consistent with positive co-operativity between two sites. Increasing ATP concentration to 10 mM caused the Po of both WT and 10SA channels to decline. 4. Wild-type and mutant CFTR channels became locked in open bursts when exposed to mixtures of ATP and the non-hydrolysable analogue AMP-PNP. The rate at which the low phosphorylation mutants became locked open was about half that of WT channels, consistent with Po being the principal determinant of locking rate in WT and mutant channels. 5. We conclude that phosphorylation at 'weak' PKA sites is sufficient to sustain the interactions between the ATP binding domains that mediate locking by AMP-PNP. Phosphorylation of the strong dibasic PKA sites controls the bursting rate and Po of WT channels by increasing the apparent affinity of CFTR for ATP.
摘要
- 运用膜片钳技术,通过比较蛋白激酶A(PKA)磷酸化的强磷酸化野生型(WT)通道与缺乏四个(4SA)或全部十个(10SA)双碱基磷酸化共有序列的弱磷酸化突变通道,研究了囊性纤维化跨膜传导调节因子(CFTR)氯离子通道的磷酸化与其核苷酸门控之间的关系。2. 在切除的膜片中,加入腺苷酰亚胺二磷酸(AMP-PNP)校正每个膜片功能通道的数量后,强磷酸化WT通道的开放概率(Po)约为4SA和10SA通道的两倍。WT和突变通道的平均爆发持续时间相似,因此WT通道升高的Po是由于其更高的爆发率。3. 与WT通道相比,10SA突变体的ATP依赖性向更高的核苷酸浓度转移。10SA通道的Po与[ATP]之间的关系明显呈S形(希尔系数,1.8),这与两个位点之间的正协同作用一致。将ATP浓度增加到10 mM会导致WT和10SA通道的Po均下降。4. 当野生型和突变型CFTR通道暴露于ATP和不可水解类似物AMP-PNP的混合物中时,它们会锁定在开放爆发状态。低磷酸化突变体锁定开放的速率约为WT通道的一半,这与Po是WT和突变通道锁定速率的主要决定因素一致。5. 我们得出结论,“弱”PKA位点的磷酸化足以维持介导AMP-PNP锁定的ATP结合域之间的相互作用。强双碱基PKA位点的磷酸化通过增加CFTR对ATP的表观亲和力来控制WT通道的爆发率和Po。
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