The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion

Sungwoo Jo; Raquel Centeio; Jinhong Park; Jiraporn Ousingsawat; Dong kyu Jeon; Khaoula Talbi; Rainer Schreiber; Kunhi Ryu; Kristin Kahlenberg; Veronika Somoza; Livia Delpiano; Michael A. Gray; Margarida D. Amaral; Violeta Railean; Jeffrey M. Beekman; Lisa W. Rodenburg; Wan Namkung; Karl Kunzelmann

doi:10.1096/fj.202200313RR

The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion

Sungwoo Jo, Raquel Centeio, Jinhong Park, Jiraporn Ousingsawat, Dong kyu Jeon, Khaoula Talbi, Rainer Schreiber, Kunhi Ryu, Kristin Kahlenberg, Veronika Somoza, Livia Delpiano, Michael A. Gray, Margarida D. Amaral, Violeta Railean, Jeffrey M. Beekman, Lisa W. Rodenburg, Wan Namkung, Karl Kunzelmann

Department of Pharmacy

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

3 Citations (Scopus)

Abstract

The solute carrier 26 family member A9 (SLC26A9) is an epithelial anion transporter that is assumed to contribute to airway chloride secretion and surface hydration. Whether SLC26A9 or CFTR is responsible for airway Cl⁻ transport under basal conditions is still unclear, due to the lack of a specific inhibitor for SLC26A9. In the present study, we report a novel potent and specific inhibitor for SLC26A9, identified by screening of a drug-like molecule library and subsequent chemical modifications. The most potent compound S9-A13 inhibited SLC26A9 with an IC₅₀ of 90.9 ± 13.4 nM. S9-A13 did not inhibit other members of the SLC26 family and had no effects on Cl⁻ channels such as CFTR, TMEM16A, or VRAC. S9-A13 inhibited SLC26A9 Cl⁻ currents in cells that lack expression of CFTR. It also inhibited proton secretion by HGT-1 human gastric cells. In contrast, S9-A13 had minimal effects on ion transport in human airway epithelia and mouse trachea, despite clear expression of SLC26A9 in the apical membrane of ciliated cells. In both tissues, basal and stimulated Cl⁻ secretion was due to CFTR, while acidification of airway surface liquid by S9-A13 suggests a role of SLC26A9 for airway bicarbonate secretion.

Original language	English
Article number	e22534
Journal	FASEB Journal
Volume	36
Issue number	11
DOIs	https://doi.org/10.1096/fj.202200313RR
Publication status	Published - 2022 Nov

Bibliographical note

Funding Information:
This study was supported by UK CF Trust SRC013, DFG KU756/14‐1, Gilead Stiftung, and National Research Foundation of Korea (NRF2018R1A6A1A03023718 and NRF2020R1C1C1008332). The technical assistance by Patricia Seeberger is greatly appreciated.

Publisher Copyright:
© 2022 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.

All Science Journal Classification (ASJC) codes

Biotechnology
Biochemistry
Molecular Biology
Genetics

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10.1096/fj.202200313RR

Cite this

Jo, S., Centeio, R., Park, J., Ousingsawat, J., Jeon, D. K., Talbi, K., Schreiber, R., Ryu, K., Kahlenberg, K., Somoza, V., Delpiano, L., Gray, M. A., Amaral, M. D., Railean, V., Beekman, J. M., Rodenburg, L. W., Namkung, W., & Kunzelmann, K. (2022). The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion. FASEB Journal, 36(11), [e22534]. https://doi.org/10.1096/fj.202200313RR

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title = "The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion",

abstract = "The solute carrier 26 family member A9 (SLC26A9) is an epithelial anion transporter that is assumed to contribute to airway chloride secretion and surface hydration. Whether SLC26A9 or CFTR is responsible for airway Cl− transport under basal conditions is still unclear, due to the lack of a specific inhibitor for SLC26A9. In the present study, we report a novel potent and specific inhibitor for SLC26A9, identified by screening of a drug-like molecule library and subsequent chemical modifications. The most potent compound S9-A13 inhibited SLC26A9 with an IC50 of 90.9 ± 13.4 nM. S9-A13 did not inhibit other members of the SLC26 family and had no effects on Cl− channels such as CFTR, TMEM16A, or VRAC. S9-A13 inhibited SLC26A9 Cl− currents in cells that lack expression of CFTR. It also inhibited proton secretion by HGT-1 human gastric cells. In contrast, S9-A13 had minimal effects on ion transport in human airway epithelia and mouse trachea, despite clear expression of SLC26A9 in the apical membrane of ciliated cells. In both tissues, basal and stimulated Cl− secretion was due to CFTR, while acidification of airway surface liquid by S9-A13 suggests a role of SLC26A9 for airway bicarbonate secretion.",

author = "Sungwoo Jo and Raquel Centeio and Jinhong Park and Jiraporn Ousingsawat and Jeon, {Dong kyu} and Khaoula Talbi and Rainer Schreiber and Kunhi Ryu and Kristin Kahlenberg and Veronika Somoza and Livia Delpiano and Gray, {Michael A.} and Amaral, {Margarida D.} and Violeta Railean and Beekman, {Jeffrey M.} and Rodenburg, {Lisa W.} and Wan Namkung and Karl Kunzelmann",

note = "Funding Information: This study was supported by UK CF Trust SRC013, DFG KU756/14‐1, Gilead Stiftung, and National Research Foundation of Korea (NRF2018R1A6A1A03023718 and NRF2020R1C1C1008332). The technical assistance by Patricia Seeberger is greatly appreciated. Publisher Copyright: {\textcopyright} 2022 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.",

year = "2022",

month = nov,

doi = "10.1096/fj.202200313RR",

language = "English",

volume = "36",

journal = "FASEB Journal",

issn = "0892-6638",

publisher = "FASEB",

number = "11",

}

Jo, S, Centeio, R, Park, J, Ousingsawat, J, Jeon, DK, Talbi, K, Schreiber, R, Ryu, K, Kahlenberg, K, Somoza, V, Delpiano, L, Gray, MA, Amaral, MD, Railean, V, Beekman, JM, Rodenburg, LW, Namkung, W & Kunzelmann, K 2022, 'The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion', FASEB Journal, vol. 36, no. 11, e22534. https://doi.org/10.1096/fj.202200313RR

TY - JOUR

T1 - The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion

AU - Jo, Sungwoo

AU - Centeio, Raquel

AU - Park, Jinhong

AU - Ousingsawat, Jiraporn

AU - Jeon, Dong kyu

AU - Talbi, Khaoula

AU - Schreiber, Rainer

AU - Ryu, Kunhi

AU - Kahlenberg, Kristin

AU - Somoza, Veronika

AU - Delpiano, Livia

AU - Gray, Michael A.

AU - Amaral, Margarida D.

AU - Railean, Violeta

AU - Beekman, Jeffrey M.

AU - Rodenburg, Lisa W.

AU - Namkung, Wan

AU - Kunzelmann, Karl

N1 - Funding Information: This study was supported by UK CF Trust SRC013, DFG KU756/14‐1, Gilead Stiftung, and National Research Foundation of Korea (NRF2018R1A6A1A03023718 and NRF2020R1C1C1008332). The technical assistance by Patricia Seeberger is greatly appreciated. Publisher Copyright: © 2022 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.

PY - 2022/11

Y1 - 2022/11

N2 - The solute carrier 26 family member A9 (SLC26A9) is an epithelial anion transporter that is assumed to contribute to airway chloride secretion and surface hydration. Whether SLC26A9 or CFTR is responsible for airway Cl− transport under basal conditions is still unclear, due to the lack of a specific inhibitor for SLC26A9. In the present study, we report a novel potent and specific inhibitor for SLC26A9, identified by screening of a drug-like molecule library and subsequent chemical modifications. The most potent compound S9-A13 inhibited SLC26A9 with an IC50 of 90.9 ± 13.4 nM. S9-A13 did not inhibit other members of the SLC26 family and had no effects on Cl− channels such as CFTR, TMEM16A, or VRAC. S9-A13 inhibited SLC26A9 Cl− currents in cells that lack expression of CFTR. It also inhibited proton secretion by HGT-1 human gastric cells. In contrast, S9-A13 had minimal effects on ion transport in human airway epithelia and mouse trachea, despite clear expression of SLC26A9 in the apical membrane of ciliated cells. In both tissues, basal and stimulated Cl− secretion was due to CFTR, while acidification of airway surface liquid by S9-A13 suggests a role of SLC26A9 for airway bicarbonate secretion.

AB - The solute carrier 26 family member A9 (SLC26A9) is an epithelial anion transporter that is assumed to contribute to airway chloride secretion and surface hydration. Whether SLC26A9 or CFTR is responsible for airway Cl− transport under basal conditions is still unclear, due to the lack of a specific inhibitor for SLC26A9. In the present study, we report a novel potent and specific inhibitor for SLC26A9, identified by screening of a drug-like molecule library and subsequent chemical modifications. The most potent compound S9-A13 inhibited SLC26A9 with an IC50 of 90.9 ± 13.4 nM. S9-A13 did not inhibit other members of the SLC26 family and had no effects on Cl− channels such as CFTR, TMEM16A, or VRAC. S9-A13 inhibited SLC26A9 Cl− currents in cells that lack expression of CFTR. It also inhibited proton secretion by HGT-1 human gastric cells. In contrast, S9-A13 had minimal effects on ion transport in human airway epithelia and mouse trachea, despite clear expression of SLC26A9 in the apical membrane of ciliated cells. In both tissues, basal and stimulated Cl− secretion was due to CFTR, while acidification of airway surface liquid by S9-A13 suggests a role of SLC26A9 for airway bicarbonate secretion.

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ER -

The SLC26A9 inhibitor S9-A13 provides no evidence for a role of SLC26A9 in airway chloride secretion but suggests a contribution to regulation of ASL pH and gastric proton secretion

Abstract

Bibliographical note

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