Cotransport of water by the Na+-K+-2Cl(-) cotransporter NKCC1 in mammalian epithelial cells

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Cotransport of water by the Na+-K+-2Cl(-) cotransporter NKCC1 in mammalian epithelial cells. / Hamann, Steffen; Herrera-Perez, José J; Zeuthen, Thomas; Alvarez-Leefmans, Francisco J; Hamann, Steffen; Herrera-Perez, José J; Zeuthen, Thomas; Alvarez-Leefmans, Francisco J.

In: Journal of Physiology, Vol. 588, No. Pt 21, 01.11.2010, p. 4089-101.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Hamann, S, Herrera-Perez, JJ, Zeuthen, T, Alvarez-Leefmans, FJ, Hamann, S, Herrera-Perez, JJ, Zeuthen, T & Alvarez-Leefmans, FJ 2010, 'Cotransport of water by the Na+-K+-2Cl(-) cotransporter NKCC1 in mammalian epithelial cells', Journal of Physiology, vol. 588, no. Pt 21, pp. 4089-101. https://doi.org/10.1113/jphysiol.2010.194738, https://doi.org/10.1113/jphysiol.2010.194738

APA

Hamann, S., Herrera-Perez, J. J., Zeuthen, T., Alvarez-Leefmans, F. J., Hamann, S., Herrera-Perez, J. J., Zeuthen, T., & Alvarez-Leefmans, F. J. (2010). Cotransport of water by the Na+-K+-2Cl(-) cotransporter NKCC1 in mammalian epithelial cells. Journal of Physiology, 588(Pt 21), 4089-101. https://doi.org/10.1113/jphysiol.2010.194738, https://doi.org/10.1113/jphysiol.2010.194738

Vancouver

Hamann S, Herrera-Perez JJ, Zeuthen T, Alvarez-Leefmans FJ, Hamann S, Herrera-Perez JJ et al. Cotransport of water by the Na+-K+-2Cl(-) cotransporter NKCC1 in mammalian epithelial cells. Journal of Physiology. 2010 Nov 1;588(Pt 21):4089-101. https://doi.org/10.1113/jphysiol.2010.194738, https://doi.org/10.1113/jphysiol.2010.194738

Author

Hamann, Steffen ; Herrera-Perez, José J ; Zeuthen, Thomas ; Alvarez-Leefmans, Francisco J ; Hamann, Steffen ; Herrera-Perez, José J ; Zeuthen, Thomas ; Alvarez-Leefmans, Francisco J. / Cotransport of water by the Na+-K+-2Cl(-) cotransporter NKCC1 in mammalian epithelial cells. In: Journal of Physiology. 2010 ; Vol. 588, No. Pt 21. pp. 4089-101.

Bibtex

@article{d07f7580f24a11dfb6d2000ea68e967b,
title = "Cotransport of water by the Na+-K+-2Cl(-) cotransporter NKCC1 in mammalian epithelial cells",
abstract = "Water transport by the Na+-K+-2Cl(-) cotransporter (NKCC1) was studied in confluent cultures of pigmented epithelial (PE) cells from the ciliary body of the fetal human eye. Interdependence among water, Na+ and Cl(-) fluxes mediated by NKCC1 was inferred from changes in cell water volume, monitored by intracellular self-quenching of the fluorescent dye calcein. Isosmotic removal of external Cl(-) or Na+ caused a rapid efflux of water from the cells, which was inhibited by bumetanide (10 µm). When returned to the control solution there was a rapid water influx that required the simultaneous presence of external Na+ and Cl(-). The water influx could proceed uphill, against a transmembrane osmotic gradient, suggesting that energy contained in the ion fluxes can be transferred to the water flux. The influx of water induced by changes in external [Cl(-)] saturated in a sigmoidal fashion with a Km of 60 mm, while that induced by changes in external [Na+] followed first order kinetics with a Km of about 40 mm. These parameters are consistent with ion transport mediated by NKCC1. Our findings support a previous investigation, in which we showed water transport by NKCC1 to be a result of a balance between ionic and osmotic gradients. The coupling between salt and water transport in NKCC1 represents a novel aspect of cellular water homeostasis where cells can change their volume independently of the direction of an osmotic gradient across the membrane. This has relevance for both epithelial and symmetrical cells.",
author = "Steffen Hamann and Herrera-Perez, {Jos{\'e} J} and Thomas Zeuthen and Alvarez-Leefmans, {Francisco J} and Steffen Hamann and Herrera-Perez, {Jos{\'e} J} and Thomas Zeuthen and Alvarez-Leefmans, {Francisco J}",
year = "2010",
month = nov,
day = "1",
doi = "10.1113/jphysiol.2010.194738",
language = "English",
volume = "588",
pages = "4089--101",
journal = "The Journal of Physiology",
issn = "0022-3751",
publisher = "Wiley-Blackwell",
number = "Pt 21",

}

RIS

TY - JOUR

T1 - Cotransport of water by the Na+-K+-2Cl(-) cotransporter NKCC1 in mammalian epithelial cells

AU - Hamann, Steffen

AU - Herrera-Perez, José J

AU - Zeuthen, Thomas

AU - Alvarez-Leefmans, Francisco J

AU - Hamann, Steffen

AU - Herrera-Perez, José J

AU - Zeuthen, Thomas

AU - Alvarez-Leefmans, Francisco J

PY - 2010/11/1

Y1 - 2010/11/1

N2 - Water transport by the Na+-K+-2Cl(-) cotransporter (NKCC1) was studied in confluent cultures of pigmented epithelial (PE) cells from the ciliary body of the fetal human eye. Interdependence among water, Na+ and Cl(-) fluxes mediated by NKCC1 was inferred from changes in cell water volume, monitored by intracellular self-quenching of the fluorescent dye calcein. Isosmotic removal of external Cl(-) or Na+ caused a rapid efflux of water from the cells, which was inhibited by bumetanide (10 µm). When returned to the control solution there was a rapid water influx that required the simultaneous presence of external Na+ and Cl(-). The water influx could proceed uphill, against a transmembrane osmotic gradient, suggesting that energy contained in the ion fluxes can be transferred to the water flux. The influx of water induced by changes in external [Cl(-)] saturated in a sigmoidal fashion with a Km of 60 mm, while that induced by changes in external [Na+] followed first order kinetics with a Km of about 40 mm. These parameters are consistent with ion transport mediated by NKCC1. Our findings support a previous investigation, in which we showed water transport by NKCC1 to be a result of a balance between ionic and osmotic gradients. The coupling between salt and water transport in NKCC1 represents a novel aspect of cellular water homeostasis where cells can change their volume independently of the direction of an osmotic gradient across the membrane. This has relevance for both epithelial and symmetrical cells.

AB - Water transport by the Na+-K+-2Cl(-) cotransporter (NKCC1) was studied in confluent cultures of pigmented epithelial (PE) cells from the ciliary body of the fetal human eye. Interdependence among water, Na+ and Cl(-) fluxes mediated by NKCC1 was inferred from changes in cell water volume, monitored by intracellular self-quenching of the fluorescent dye calcein. Isosmotic removal of external Cl(-) or Na+ caused a rapid efflux of water from the cells, which was inhibited by bumetanide (10 µm). When returned to the control solution there was a rapid water influx that required the simultaneous presence of external Na+ and Cl(-). The water influx could proceed uphill, against a transmembrane osmotic gradient, suggesting that energy contained in the ion fluxes can be transferred to the water flux. The influx of water induced by changes in external [Cl(-)] saturated in a sigmoidal fashion with a Km of 60 mm, while that induced by changes in external [Na+] followed first order kinetics with a Km of about 40 mm. These parameters are consistent with ion transport mediated by NKCC1. Our findings support a previous investigation, in which we showed water transport by NKCC1 to be a result of a balance between ionic and osmotic gradients. The coupling between salt and water transport in NKCC1 represents a novel aspect of cellular water homeostasis where cells can change their volume independently of the direction of an osmotic gradient across the membrane. This has relevance for both epithelial and symmetrical cells.

U2 - 10.1113/jphysiol.2010.194738

DO - 10.1113/jphysiol.2010.194738

M3 - Journal article

C2 - 20819947

VL - 588

SP - 4089

EP - 4101

JO - The Journal of Physiology

JF - The Journal of Physiology

SN - 0022-3751

IS - Pt 21

ER -

ID: 23207827