Gating of CFTR by the STAS domain of SLC26 transporters

Shigeru B H Ko; Weizhong Zeng; Michael R. Dorwart; Xiang Luo; Kil Hwan Kim; Linda Millen; Hidemi Goto; Satoru Naruse; Abigail Soyombo; Philip J. Thomas; Shmuel Muallem

doi:10.1038/ncb1115

Gating of CFTR by the STAS domain of SLC26 transporters

Shigeru B H Ko, Weizhong Zeng, Michael R. Dorwart, Xiang Luo, Kil Hwan Kim, Linda Millen, Hidemi Goto, Satoru Naruse, Abigail Soyombo, Philip J. Thomas, Shmuel Muallem

Research output: Contribution to journal › Article › peer-review

377 Scopus citations

Abstract

Chloride absorption and bicarbonate secretion are vital functions of epithelia^1-6, as highlighted by cystic fibrosis and diseases associated with mutations in members of the SLC26 chloride-bicarbonate exchangers. Many SLC26 transporters (SLC26T) are expressed in the luminal membrane together with CFTR⁷, which activates electrogenic chloride-bicarbonate exchange by SLC26T⁸. However, the ability of SLC26T to regulate CFTR and the molecular mechanism of their interaction are not known. We report here a reciprocal regulatory interaction between the SLC26T DRA, SLC26A6 and CFTR. DRA markedly activates CFTR by increasing its overall open probablity (NP_o) sixfold. Activation of CFTR by DRA was facilitated by their PDZ ligands and binding of the SLC26T STAS domain to the CFTR R domain. Binding of the STAS and R domains is regulated by PKA-mediated phosphorylation of the R domain. Notably, CFTR and SLC26T co-localize in the luminal membrane and recombinant STAS domain activates CFTR in native duct cells. These findings provide a new understanding of epithelial chloride and bicarbonate transport and may have important implications for both cystic fibrosis and diseases associated with SLC26T.

Original language	English (US)
Pages (from-to)	343-350
Number of pages	8
Journal	Nature cell biology
Volume	6
Issue number	4
DOIs	https://doi.org/10.1038/ncb1115
State	Published - Apr 2004

ASJC Scopus subject areas

Cell Biology

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@article{2bc256884a134b21861b91e73c80d0f9,

title = "Gating of CFTR by the STAS domain of SLC26 transporters",

abstract = "Chloride absorption and bicarbonate secretion are vital functions of epithelia1-6, as highlighted by cystic fibrosis and diseases associated with mutations in members of the SLC26 chloride-bicarbonate exchangers. Many SLC26 transporters (SLC26T) are expressed in the luminal membrane together with CFTR7, which activates electrogenic chloride-bicarbonate exchange by SLC26T8. However, the ability of SLC26T to regulate CFTR and the molecular mechanism of their interaction are not known. We report here a reciprocal regulatory interaction between the SLC26T DRA, SLC26A6 and CFTR. DRA markedly activates CFTR by increasing its overall open probablity (NPo) sixfold. Activation of CFTR by DRA was facilitated by their PDZ ligands and binding of the SLC26T STAS domain to the CFTR R domain. Binding of the STAS and R domains is regulated by PKA-mediated phosphorylation of the R domain. Notably, CFTR and SLC26T co-localize in the luminal membrane and recombinant STAS domain activates CFTR in native duct cells. These findings provide a new understanding of epithelial chloride and bicarbonate transport and may have important implications for both cystic fibrosis and diseases associated with SLC26T.",

author = "Ko, {Shigeru B H} and Weizhong Zeng and Dorwart, {Michael R.} and Xiang Luo and Kim, {Kil Hwan} and Linda Millen and Hidemi Goto and Satoru Naruse and Abigail Soyombo and Thomas, {Philip J.} and Shmuel Muallem",

note = "Funding Information: This work was supported by grants DE12309, DK38938, cystic fibrosis Foundation grant MUALLE01G0 (to S.M.), DK49835 (to P.T.), traning grant GM-08203 (M.R.D.), Pancreas Research Foundation of Japan (to S.K.) and the Ministry of Education, Science, Technology, Sports and Culture, Japan, and the Uehara Memorial Foundation (to S.N.). S.B.H.K. was supported by the Japan Health Sciences Foundation.",

year = "2004",

month = apr,

doi = "10.1038/ncb1115",

language = "English (US)",

volume = "6",

pages = "343--350",

journal = "Nature cell biology",

issn = "1465-7392",

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T1 - Gating of CFTR by the STAS domain of SLC26 transporters

AU - Ko, Shigeru B H

AU - Zeng, Weizhong

AU - Dorwart, Michael R.

AU - Luo, Xiang

AU - Kim, Kil Hwan

AU - Millen, Linda

AU - Goto, Hidemi

AU - Naruse, Satoru

AU - Soyombo, Abigail

AU - Thomas, Philip J.

AU - Muallem, Shmuel

N1 - Funding Information: This work was supported by grants DE12309, DK38938, cystic fibrosis Foundation grant MUALLE01G0 (to S.M.), DK49835 (to P.T.), traning grant GM-08203 (M.R.D.), Pancreas Research Foundation of Japan (to S.K.) and the Ministry of Education, Science, Technology, Sports and Culture, Japan, and the Uehara Memorial Foundation (to S.N.). S.B.H.K. was supported by the Japan Health Sciences Foundation.

PY - 2004/4

Y1 - 2004/4

N2 - Chloride absorption and bicarbonate secretion are vital functions of epithelia1-6, as highlighted by cystic fibrosis and diseases associated with mutations in members of the SLC26 chloride-bicarbonate exchangers. Many SLC26 transporters (SLC26T) are expressed in the luminal membrane together with CFTR7, which activates electrogenic chloride-bicarbonate exchange by SLC26T8. However, the ability of SLC26T to regulate CFTR and the molecular mechanism of their interaction are not known. We report here a reciprocal regulatory interaction between the SLC26T DRA, SLC26A6 and CFTR. DRA markedly activates CFTR by increasing its overall open probablity (NPo) sixfold. Activation of CFTR by DRA was facilitated by their PDZ ligands and binding of the SLC26T STAS domain to the CFTR R domain. Binding of the STAS and R domains is regulated by PKA-mediated phosphorylation of the R domain. Notably, CFTR and SLC26T co-localize in the luminal membrane and recombinant STAS domain activates CFTR in native duct cells. These findings provide a new understanding of epithelial chloride and bicarbonate transport and may have important implications for both cystic fibrosis and diseases associated with SLC26T.

AB - Chloride absorption and bicarbonate secretion are vital functions of epithelia1-6, as highlighted by cystic fibrosis and diseases associated with mutations in members of the SLC26 chloride-bicarbonate exchangers. Many SLC26 transporters (SLC26T) are expressed in the luminal membrane together with CFTR7, which activates electrogenic chloride-bicarbonate exchange by SLC26T8. However, the ability of SLC26T to regulate CFTR and the molecular mechanism of their interaction are not known. We report here a reciprocal regulatory interaction between the SLC26T DRA, SLC26A6 and CFTR. DRA markedly activates CFTR by increasing its overall open probablity (NPo) sixfold. Activation of CFTR by DRA was facilitated by their PDZ ligands and binding of the SLC26T STAS domain to the CFTR R domain. Binding of the STAS and R domains is regulated by PKA-mediated phosphorylation of the R domain. Notably, CFTR and SLC26T co-localize in the luminal membrane and recombinant STAS domain activates CFTR in native duct cells. These findings provide a new understanding of epithelial chloride and bicarbonate transport and may have important implications for both cystic fibrosis and diseases associated with SLC26T.

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U2 - 10.1038/ncb1115

DO - 10.1038/ncb1115

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SN - 1465-7392

VL - 6

SP - 343

EP - 350

JO - Nature cell biology

JF - Nature cell biology

IS - 4

ER -

Gating of CFTR by the STAS domain of SLC26 transporters

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