{"title":"ATP hydrolysis cycles and the gating of CFTR Cl- channels.","authors":"D C Gadsby, A G Dousmanis, A C Nairn","doi":"","DOIUrl":null,"url":null,"abstract":"<p><p>The gene defective in cystic fibrosis encodes a Cl- channel named CFTR, which belongs to the family of transport proteins identified by their cytoplasmic domains that bind and hydrolyse ATP. CFTR channels require phosphorylation by protein kinase A at one or more serine residues in the large central regulatory domain before they will open. Severl findings argue that hydrolysis of ATP at the N-terminal nucleotide binding domain is the rate-limiting step for opening a phosphorylated CFTR channel. Although AMP-PNP the non-hydrolysable, but close structural, analog of ATP fails to open phosphorylated CFTR channels, once a channel has been opened, AMP-PNP can bind tightly to the channel and \"lock\" it into the open conformation for several minutes. This tight binding of AMP-PNP presumably occurs at CFTR's C-terminal nucleotide binding domain. Because it structurally resembles AMP-PNP, ATP must also bind tightly there, which suggests that hydrolysis of that ATP normally prompts channel closing. That conclusion is supported by the finding that free [Mg2+] level controls the rate of CFTR channel closure. A normal closed-open-closed gating cycle of a CFTR channel thus seems to involve hydrolysis of one ATP molecule to open it, and hydrolysis of a second ATP to close it. Stabilization of an active state by tight binding of a nucleotide, and termination of that state by hydrolysis of the nucleotide, are characteristics reminiscent of G proteins. Indeed, CFTR's nucleotide binding domains share with G proteins not only this functional similarity, but also some sequence homology, at least in certain highly conserved motifs.</p>","PeriodicalId":75414,"journal":{"name":"Acta physiologica Scandinavica. Supplementum","volume":"643 ","pages":"247-56"},"PeriodicalIF":0.0000,"publicationDate":"1998-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Acta physiologica Scandinavica. Supplementum","FirstCategoryId":"1085","ListUrlMain":"","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
The gene defective in cystic fibrosis encodes a Cl- channel named CFTR, which belongs to the family of transport proteins identified by their cytoplasmic domains that bind and hydrolyse ATP. CFTR channels require phosphorylation by protein kinase A at one or more serine residues in the large central regulatory domain before they will open. Severl findings argue that hydrolysis of ATP at the N-terminal nucleotide binding domain is the rate-limiting step for opening a phosphorylated CFTR channel. Although AMP-PNP the non-hydrolysable, but close structural, analog of ATP fails to open phosphorylated CFTR channels, once a channel has been opened, AMP-PNP can bind tightly to the channel and "lock" it into the open conformation for several minutes. This tight binding of AMP-PNP presumably occurs at CFTR's C-terminal nucleotide binding domain. Because it structurally resembles AMP-PNP, ATP must also bind tightly there, which suggests that hydrolysis of that ATP normally prompts channel closing. That conclusion is supported by the finding that free [Mg2+] level controls the rate of CFTR channel closure. A normal closed-open-closed gating cycle of a CFTR channel thus seems to involve hydrolysis of one ATP molecule to open it, and hydrolysis of a second ATP to close it. Stabilization of an active state by tight binding of a nucleotide, and termination of that state by hydrolysis of the nucleotide, are characteristics reminiscent of G proteins. Indeed, CFTR's nucleotide binding domains share with G proteins not only this functional similarity, but also some sequence homology, at least in certain highly conserved motifs.
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