Influence of WNK3 on intracellular chloride concentration and volume regulation in HEK293 cells

The involvement of WNK3 (with no lysine [K] kinase) in cell volume regulation evoked by anisotonic conditions was investigated in two modified stable lines of HEK293 cells: WNK3+, overexpressing WNK3 and WNK3-KD expressing a kinase inactive by a punctual mutation (D294A) at the catalytic site. This...

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Published in	Pflügers Archiv Vol. 464; no. 3; pp. 317 - 330
Main Authors	Cruz-Rangel, Silvia, Gamba, Gerardo, Ramos-Mandujano, Gerardo, Pasantes-Morales, Herminia
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer-Verlag 01.09.2012 Springer Nature B.V
Subjects	Biomedical and Life Sciences Biomedicine Cell Biology Cell Size Chlorides - metabolism Cytosol - metabolism HEK293 Cells Human Physiology Humans K Cl- Cotransporters Molecular Medicine Mutation Neurosciences Osmolar Concentration Protein Serine-Threonine Kinases - genetics Protein Serine-Threonine Kinases - metabolism Receptors Signaling and Cell Physiology Sodium-Potassium-Chloride Symporters - metabolism Symporters - metabolism Taurine - metabolism RVD SPAK RVI Osmolarity Kinase NKCC KCC
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Abstract	The involvement of WNK3 (with no lysine [K] kinase) in cell volume regulation evoked by anisotonic conditions was investigated in two modified stable lines of HEK293 cells: WNK3+, overexpressing WNK3 and WNK3-KD expressing a kinase inactive by a punctual mutation (D294A) at the catalytic site. This different WNK3 functional expression modified intracellular Cl − concentration with the following profile: WNK3+ > control > WNK3-KD cells. Stimulated with 15 % hypotonic solutions, WNK3+ cells showed less efficient RVD (13.1 %), lower Cl − efflux and decreased (94.5 %) KCC activity. WNK3-KD cells showed 30.1 % more efficient RVD, larger Cl − efflux and 5-fold higher KCC activity, increased since the isotonic condition. Volume-sensitive Cl − currents were similar in controls, WNK3+ cells, and WNK3-KD cells. Taurine efflux was not evoked at H15%. These results show a WNK3 influence on RVD in HEK293 cells via increasing KCC activity. Hypertonic medium induced cell shrinkage and RVI. In both WNK3+ and WNK3-KD cells, RVI and NKCC activity were increased, in WNK3+ cells presumably by enhanced NKCC phosphorylation, and in WNK3-KD cells via the [Cl − ] i reduction induced by the higher KCC activity in characteristic of these cells. These results support the role of WNK3 in modulation of intracellular Cl − concentration, in RVD, and indirectly on RVI, via its effects on KCC and NKCC activity. WNK3 in HEK293 cells is expressed as puncta at the intercellular junctions and diffusely at the cytosol, while the inactive kinase was found concentrated at the Golgi area. Cells with inactive WNK3 exhibited a marked change of cell phenotype.
AbstractList	The involvement of WNK3 (with no lysine [K] kinase) in cell volume regulation evoked by anisotonic conditions was investigated in two modified stable lines of HEK293 cells: WNK3+, overexpressing WNK3 and WNK3-KD expressing a kinase inactive by a punctual mutation (D294A) at the catalytic site. This different WNK3 functional expression modified intracellular Cl(-) concentration with the following profile: WNK3+ > control > WNK3-KD cells. Stimulated with 15% hypotonic solutions, WNK3+ cells showed less efficient RVD (13.1%), lower Cl(-) efflux and decreased (94.5%) KCC activity. WNK3-KD cells showed 30.1% more efficient RVD, larger Cl(-) efflux and 5-fold higher KCC activity, increased since the isotonic condition. Volume-sensitive Cl(-) currents were similar in controls, WNK3+ cells, and WNK3-KD cells. Taurine efflux was not evoked at H15%. These results show a WNK3 influence on RVD in HEK293 cells via increasing KCC activity. Hypertonic medium induced cell shrinkage and RVI. In both WNK3+ and WNK3-KD cells, RVI and NKCC activity were increased, in WNK3+ cells presumably by enhanced NKCC phosphorylation, and in WNK3-KD cells via the [Cl(-)](i) reduction induced by the higher KCC activity in characteristic of these cells. These results support the role of WNK3 in modulation of intracellular Cl(-) concentration, in RVD, and indirectly on RVI, via its effects on KCC and NKCC activity. WNK3 in HEK293 cells is expressed as puncta at the intercellular junctions and diffusely at the cytosol, while the inactive kinase was found concentrated at the Golgi area. Cells with inactive WNK3 exhibited a marked change of cell phenotype.The involvement of WNK3 (with no lysine [K] kinase) in cell volume regulation evoked by anisotonic conditions was investigated in two modified stable lines of HEK293 cells: WNK3+, overexpressing WNK3 and WNK3-KD expressing a kinase inactive by a punctual mutation (D294A) at the catalytic site. This different WNK3 functional expression modified intracellular Cl(-) concentration with the following profile: WNK3+ > control > WNK3-KD cells. Stimulated with 15% hypotonic solutions, WNK3+ cells showed less efficient RVD (13.1%), lower Cl(-) efflux and decreased (94.5%) KCC activity. WNK3-KD cells showed 30.1% more efficient RVD, larger Cl(-) efflux and 5-fold higher KCC activity, increased since the isotonic condition. Volume-sensitive Cl(-) currents were similar in controls, WNK3+ cells, and WNK3-KD cells. Taurine efflux was not evoked at H15%. These results show a WNK3 influence on RVD in HEK293 cells via increasing KCC activity. Hypertonic medium induced cell shrinkage and RVI. In both WNK3+ and WNK3-KD cells, RVI and NKCC activity were increased, in WNK3+ cells presumably by enhanced NKCC phosphorylation, and in WNK3-KD cells via the [Cl(-)](i) reduction induced by the higher KCC activity in characteristic of these cells. These results support the role of WNK3 in modulation of intracellular Cl(-) concentration, in RVD, and indirectly on RVI, via its effects on KCC and NKCC activity. WNK3 in HEK293 cells is expressed as puncta at the intercellular junctions and diffusely at the cytosol, while the inactive kinase was found concentrated at the Golgi area. Cells with inactive WNK3 exhibited a marked change of cell phenotype. The involvement of WNK3 (with no lysine [K] kinase) in cell volume regulation evoked by anisotonic conditions was investigated in two modified stable lines of HEK293 cells: WNK3+, overexpressing WNK3 and WNK3-KD expressing a kinase inactive by a punctual mutation (D294A) at the catalytic site. This different WNK3 functional expression modified intracellular Cl − concentration with the following profile: WNK3+ > control > WNK3-KD cells. Stimulated with 15 % hypotonic solutions, WNK3+ cells showed less efficient RVD (13.1 %), lower Cl − efflux and decreased (94.5 %) KCC activity. WNK3-KD cells showed 30.1 % more efficient RVD, larger Cl − efflux and 5-fold higher KCC activity, increased since the isotonic condition. Volume-sensitive Cl − currents were similar in controls, WNK3+ cells, and WNK3-KD cells. Taurine efflux was not evoked at H15%. These results show a WNK3 influence on RVD in HEK293 cells via increasing KCC activity. Hypertonic medium induced cell shrinkage and RVI. In both WNK3+ and WNK3-KD cells, RVI and NKCC activity were increased, in WNK3+ cells presumably by enhanced NKCC phosphorylation, and in WNK3-KD cells via the [Cl − ] i reduction induced by the higher KCC activity in characteristic of these cells. These results support the role of WNK3 in modulation of intracellular Cl − concentration, in RVD, and indirectly on RVI, via its effects on KCC and NKCC activity. WNK3 in HEK293 cells is expressed as puncta at the intercellular junctions and diffusely at the cytosol, while the inactive kinase was found concentrated at the Golgi area. Cells with inactive WNK3 exhibited a marked change of cell phenotype. The involvement of WNK3 (with no lysine [K] kinase) in cell volume regulation evoked by anisotonic conditions was investigated in two modified stable lines of HEK293 cells: WNK3+, overexpressing WNK3 and WNK3-KD expressing a kinase inactive by a punctual mutation (D294A) at the catalytic site. This different WNK3 functional expression modified intracellular Cl^sup -^ concentration with the following profile: WNK3+>control>WNK3-KD cells. Stimulated with 15 % hypotonic solutions, WNK3+ cells showed less efficient RVD (13.1 %), lower Cl^sup -^ efflux and decreased (94.5 %) KCC activity. WNK3-KD cells showed 30.1 % more efficient RVD, larger Cl^sup -^ efflux and 5-fold higher KCC activity, increased since the isotonic condition. Volume-sensitive Cl^sup -^ currents were similar in controls, WNK3+ cells, and WNK3-KD cells. Taurine efflux was not evoked at H15%. These results show a WNK3 influence on RVD in HEK293 cells via increasing KCC activity. Hypertonic medium induced cell shrinkage and RVI. In both WNK3+ and WNK3-KD cells, RVI and NKCC activity were increased, in WNK3+ cells presumably by enhanced NKCC phosphorylation, and in WNK3-KD cells via the [Cl^sup -^]^sub i^ reduction induced by the higher KCC activity in characteristic of these cells. These results support the role of WNK3 in modulation of intracellular Cl^sup -^ concentration, in RVD, and indirectly on RVI, via its effects on KCC and NKCC activity. WNK3 in HEK293 cells is expressed as puncta at the intercellular junctions and diffusely at the cytosol, while the inactive kinase was found concentrated at the Golgi area. Cells with inactive WNK3 exhibited a marked change of cell phenotype.[PUBLICATION ABSTRACT] The involvement of WNK3 (with no lysine [K] kinase) in cell volume regulation evoked by anisotonic conditions was investigated in two modified stable lines of HEK293 cells: WNK3+, overexpressing WNK3 and WNK3-KD expressing a kinase inactive by a punctual mutation (D294A) at the catalytic site. This different WNK3 functional expression modified intracellular Cl(-) concentration with the following profile: WNK3+ > control > WNK3-KD cells. Stimulated with 15% hypotonic solutions, WNK3+ cells showed less efficient RVD (13.1%), lower Cl(-) efflux and decreased (94.5%) KCC activity. WNK3-KD cells showed 30.1% more efficient RVD, larger Cl(-) efflux and 5-fold higher KCC activity, increased since the isotonic condition. Volume-sensitive Cl(-) currents were similar in controls, WNK3+ cells, and WNK3-KD cells. Taurine efflux was not evoked at H15%. These results show a WNK3 influence on RVD in HEK293 cells via increasing KCC activity. Hypertonic medium induced cell shrinkage and RVI. In both WNK3+ and WNK3-KD cells, RVI and NKCC activity were increased, in WNK3+ cells presumably by enhanced NKCC phosphorylation, and in WNK3-KD cells via the [Cl(-)](i) reduction induced by the higher KCC activity in characteristic of these cells. These results support the role of WNK3 in modulation of intracellular Cl(-) concentration, in RVD, and indirectly on RVI, via its effects on KCC and NKCC activity. WNK3 in HEK293 cells is expressed as puncta at the intercellular junctions and diffusely at the cytosol, while the inactive kinase was found concentrated at the Golgi area. Cells with inactive WNK3 exhibited a marked change of cell phenotype.
Author	Cruz-Rangel, Silvia Pasantes-Morales, Herminia Ramos-Mandujano, Gerardo Gamba, Gerardo
Author_xml	– sequence: 1 givenname: Silvia surname: Cruz-Rangel fullname: Cruz-Rangel, Silvia organization: División de Neurociencias, Instituto de Fisiología Celular, Universidad Nacional Autónoma de México – sequence: 2 givenname: Gerardo surname: Gamba fullname: Gamba, Gerardo organization: Departamento de Medicina Genómica, Instituto de Investigaciones Biomédicas, Universidad Nacional Autónoma de México, Departamento de Nefrología y Metabolismo Mineral, Instituto Nacional de Ciencias Médicas y Nutrición Salvador Zubirán – sequence: 3 givenname: Gerardo surname: Ramos-Mandujano fullname: Ramos-Mandujano, Gerardo organization: División de Neurociencias, Instituto de Fisiología Celular, Universidad Nacional Autónoma de México – sequence: 4 givenname: Herminia surname: Pasantes-Morales fullname: Pasantes-Morales, Herminia email: hpasante@ifc.unam.mx organization: División de Neurociencias, Instituto de Fisiología Celular, Universidad Nacional Autónoma de México
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/22864523$$D View this record in MEDLINE/PubMed
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Snippet	The involvement of WNK3 (with no lysine [K] kinase) in cell volume regulation evoked by anisotonic conditions was investigated in two modified stable lines of...
SourceID	proquest pubmed crossref springer
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SubjectTerms	Biomedical and Life Sciences Biomedicine Cell Biology Cell Size Chlorides - metabolism Cytosol - metabolism HEK293 Cells Human Physiology Humans K Cl- Cotransporters Molecular Medicine Mutation Neurosciences Osmolar Concentration Protein Serine-Threonine Kinases - genetics Protein Serine-Threonine Kinases - metabolism Receptors Signaling and Cell Physiology Sodium-Potassium-Chloride Symporters - metabolism Symporters - metabolism Taurine - metabolism
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Title	Influence of WNK3 on intracellular chloride concentration and volume regulation in HEK293 cells
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