Simultaneous expression of ClopHensor and SLC26A3 reveals the nature of endogenous oxalate transport in CHO cells

ClopHensor, a fluorescent fusion protein, is a dual function biosensor that has been utilized as a tool for the simultaneous measurement of intracellular chloride and pH in cells. ClopHensor has traditionally been used in conjunction with fluorescence microscopy for single cell measurements. Here, w...

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Autores principales: Wasiluk, Teresa, Roueinfar, Mina, Hiryak, Kayla, Torsiello, Maria, Miner, Alexander, Lee, Jennifer, Venditto, Michael, Terzaghi, William, Lucent, Del, VanWert, Adam L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Company of Biologists Ltd 2019
Materias:
Methods and Techniques
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6504001/
https://www.ncbi.nlm.nih.gov/pubmed/30837228
http://dx.doi.org/10.1242/bio.041665
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author Wasiluk, Teresa
Roueinfar, Mina
Hiryak, Kayla
Torsiello, Maria
Miner, Alexander
Lee, Jennifer
Venditto, Michael
Terzaghi, William
Lucent, Del
VanWert, Adam L.
author_facet Wasiluk, Teresa
Roueinfar, Mina
Hiryak, Kayla
Torsiello, Maria
Miner, Alexander
Lee, Jennifer
Venditto, Michael
Terzaghi, William
Lucent, Del
VanWert, Adam L.
author_sort Wasiluk, Teresa
collection PubMed
description ClopHensor, a fluorescent fusion protein, is a dual function biosensor that has been utilized as a tool for the simultaneous measurement of intracellular chloride and pH in cells. ClopHensor has traditionally been used in conjunction with fluorescence microscopy for single cell measurements. Here, we present a promising multi-well format advancement for the use of ClopHensor as a potential high-throughput method capable of measuring fluorescence signal intensity across a well of confluent cells with highly reproducible results. Using this system, we gained mechanistic insight into an endogenous oxalate transporter in Chinese hamster ovary (CHO) cells expressing ClopHensor and the human chloride transporter, SLC26A3. SLC26A3, a known anion exchanger, has been proposed to play a role in colonic oxalate absorption in humans. Our attempt to study the role of SLC26A3 in oxalate transport revealed the presence of an endogenous oxalate transporter in CHO cells. This transporter was strongly inhibited by niflumate, and exhibited clear saturability. Use of ClopHensor in a multi-well cell assay allowed us to quickly demonstrate that the endogenous oxalate transporter was unable to exchange chloride for bicarbonate, unlike SLC26A3.
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spelling pubmed-65040012019-05-08 Simultaneous expression of ClopHensor and SLC26A3 reveals the nature of endogenous oxalate transport in CHO cells Wasiluk, Teresa Roueinfar, Mina Hiryak, Kayla Torsiello, Maria Miner, Alexander Lee, Jennifer Venditto, Michael Terzaghi, William Lucent, Del VanWert, Adam L. Biol Open Methods and Techniques ClopHensor, a fluorescent fusion protein, is a dual function biosensor that has been utilized as a tool for the simultaneous measurement of intracellular chloride and pH in cells. ClopHensor has traditionally been used in conjunction with fluorescence microscopy for single cell measurements. Here, we present a promising multi-well format advancement for the use of ClopHensor as a potential high-throughput method capable of measuring fluorescence signal intensity across a well of confluent cells with highly reproducible results. Using this system, we gained mechanistic insight into an endogenous oxalate transporter in Chinese hamster ovary (CHO) cells expressing ClopHensor and the human chloride transporter, SLC26A3. SLC26A3, a known anion exchanger, has been proposed to play a role in colonic oxalate absorption in humans. Our attempt to study the role of SLC26A3 in oxalate transport revealed the presence of an endogenous oxalate transporter in CHO cells. This transporter was strongly inhibited by niflumate, and exhibited clear saturability. Use of ClopHensor in a multi-well cell assay allowed us to quickly demonstrate that the endogenous oxalate transporter was unable to exchange chloride for bicarbonate, unlike SLC26A3. The Company of Biologists Ltd 2019-03-05 /pmc/articles/PMC6504001/ /pubmed/30837228 http://dx.doi.org/10.1242/bio.041665 Text en © 2019. Published by The Company of Biologists Ltd http://creativecommons.org/licenses/by/4.0This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.
spellingShingle Methods and Techniques
Wasiluk, Teresa
Roueinfar, Mina
Hiryak, Kayla
Torsiello, Maria
Miner, Alexander
Lee, Jennifer
Venditto, Michael
Terzaghi, William
Lucent, Del
VanWert, Adam L.
Simultaneous expression of ClopHensor and SLC26A3 reveals the nature of endogenous oxalate transport in CHO cells
title Simultaneous expression of ClopHensor and SLC26A3 reveals the nature of endogenous oxalate transport in CHO cells
title_full Simultaneous expression of ClopHensor and SLC26A3 reveals the nature of endogenous oxalate transport in CHO cells
title_fullStr Simultaneous expression of ClopHensor and SLC26A3 reveals the nature of endogenous oxalate transport in CHO cells
title_full_unstemmed Simultaneous expression of ClopHensor and SLC26A3 reveals the nature of endogenous oxalate transport in CHO cells
title_short Simultaneous expression of ClopHensor and SLC26A3 reveals the nature of endogenous oxalate transport in CHO cells
title_sort simultaneous expression of clophensor and slc26a3 reveals the nature of endogenous oxalate transport in cho cells
topic Methods and Techniques
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6504001/
https://www.ncbi.nlm.nih.gov/pubmed/30837228
http://dx.doi.org/10.1242/bio.041665
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