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Claudin-16 affects transcellular Clâ secretion in MDCK cells
Claudin-16 (paracellin-1) is a tight junction protein localized mainly in the thick ascending limb of Henle's loop and also in the distal nephron. Its defect causes familial hypomagnesaemia with hypercalciuria and nephrocalcinosis. This had been taken as an indication that claudin-16 conveys pa...
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| Published in: | The Journal of physiology 2009-08, Vol.587 (15), p.3777 |
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| Format: | Article |
| Language: | English |
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| container_issue | 15 |
| container_start_page | 3777 |
| container_title | The Journal of physiology |
| container_volume | 587 |
| creator | Dorothee Günzel Salah Amasheh Sandra Pfaffenbach Jan F. Richter P. Jaya Kausalya Walter Hunziker Michael Fromm |
| description | Claudin-16 (paracellin-1) is a tight junction protein localized mainly in the thick ascending limb of Henle's loop and also
in the distal nephron. Its defect causes familial hypomagnesaemia with hypercalciuria and nephrocalcinosis. This had been
taken as an indication that claudin-16 conveys paracellular Mg 2+ and Ca 2+ transport; however, evidence is still conflicting. We studied paracellular ion permeabilties as well as effects of claudin-16
on the driving forces for passive ion movement. MDCK-C7 cells were stably transfected with wild-type (wt) and mutant (R146T,
T233R) claudin-16. Results indicated that paracellular permeability to Mg 2+ but not to Ca 2+ is increased in cells transfected with wt compared to mutant claudin-16 and control cells. Increased basolateral Mg 2+ concentration activated a transcellular Cl â current which was greatly enhanced in cells transfected with wt and T233R claudin-16, as compared to R146T claudin-16-transfected
or control cells. This current was triggered by the basolateral calcium-sensing receptor causing Ca 2+ release from internal stores, thus activating apical Ca 2+ -sensitive Cl â channels and basolateral Ca 2+ -sensitive K + channels. Immunohistochemical data suggest that the Cl â channel involved is bestrophin. We conclude that claudin-16 itself possesses only moderate paracellular Mg 2+ permeability but governs transcellular Cl â currents by interaction with apical Ca 2+ -activated Cl â channels, presumably bestrophin. As the transepithelial voltage generated by such a current alters the driving force for
all ions, this may be the major mechanism to regulate Mg 2+ and Ca 2+ absorption in the kidney. |
| doi_str_mv | 10.1113/jphysiol.2009.173401 |
| format | article |
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in the distal nephron. Its defect causes familial hypomagnesaemia with hypercalciuria and nephrocalcinosis. This had been
taken as an indication that claudin-16 conveys paracellular Mg 2+ and Ca 2+ transport; however, evidence is still conflicting. We studied paracellular ion permeabilties as well as effects of claudin-16
on the driving forces for passive ion movement. MDCK-C7 cells were stably transfected with wild-type (wt) and mutant (R146T,
T233R) claudin-16. Results indicated that paracellular permeability to Mg 2+ but not to Ca 2+ is increased in cells transfected with wt compared to mutant claudin-16 and control cells. Increased basolateral Mg 2+ concentration activated a transcellular Cl â current which was greatly enhanced in cells transfected with wt and T233R claudin-16, as compared to R146T claudin-16-transfected
or control cells. This current was triggered by the basolateral calcium-sensing receptor causing Ca 2+ release from internal stores, thus activating apical Ca 2+ -sensitive Cl â channels and basolateral Ca 2+ -sensitive K + channels. Immunohistochemical data suggest that the Cl â channel involved is bestrophin. We conclude that claudin-16 itself possesses only moderate paracellular Mg 2+ permeability but governs transcellular Cl â currents by interaction with apical Ca 2+ -activated Cl â channels, presumably bestrophin. As the transepithelial voltage generated by such a current alters the driving force for
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in the distal nephron. Its defect causes familial hypomagnesaemia with hypercalciuria and nephrocalcinosis. This had been
taken as an indication that claudin-16 conveys paracellular Mg 2+ and Ca 2+ transport; however, evidence is still conflicting. We studied paracellular ion permeabilties as well as effects of claudin-16
on the driving forces for passive ion movement. MDCK-C7 cells were stably transfected with wild-type (wt) and mutant (R146T,
T233R) claudin-16. Results indicated that paracellular permeability to Mg 2+ but not to Ca 2+ is increased in cells transfected with wt compared to mutant claudin-16 and control cells. Increased basolateral Mg 2+ concentration activated a transcellular Cl â current which was greatly enhanced in cells transfected with wt and T233R claudin-16, as compared to R146T claudin-16-transfected
or control cells. This current was triggered by the basolateral calcium-sensing receptor causing Ca 2+ release from internal stores, thus activating apical Ca 2+ -sensitive Cl â channels and basolateral Ca 2+ -sensitive K + channels. Immunohistochemical data suggest that the Cl â channel involved is bestrophin. We conclude that claudin-16 itself possesses only moderate paracellular Mg 2+ permeability but governs transcellular Cl â currents by interaction with apical Ca 2+ -activated Cl â channels, presumably bestrophin. As the transepithelial voltage generated by such a current alters the driving force for
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in the distal nephron. Its defect causes familial hypomagnesaemia with hypercalciuria and nephrocalcinosis. This had been
taken as an indication that claudin-16 conveys paracellular Mg 2+ and Ca 2+ transport; however, evidence is still conflicting. We studied paracellular ion permeabilties as well as effects of claudin-16
on the driving forces for passive ion movement. MDCK-C7 cells were stably transfected with wild-type (wt) and mutant (R146T,
T233R) claudin-16. Results indicated that paracellular permeability to Mg 2+ but not to Ca 2+ is increased in cells transfected with wt compared to mutant claudin-16 and control cells. Increased basolateral Mg 2+ concentration activated a transcellular Cl â current which was greatly enhanced in cells transfected with wt and T233R claudin-16, as compared to R146T claudin-16-transfected
or control cells. This current was triggered by the basolateral calcium-sensing receptor causing Ca 2+ release from internal stores, thus activating apical Ca 2+ -sensitive Cl â channels and basolateral Ca 2+ -sensitive K + channels. Immunohistochemical data suggest that the Cl â channel involved is bestrophin. We conclude that claudin-16 itself possesses only moderate paracellular Mg 2+ permeability but governs transcellular Cl â currents by interaction with apical Ca 2+ -activated Cl â channels, presumably bestrophin. As the transepithelial voltage generated by such a current alters the driving force for
all ions, this may be the major mechanism to regulate Mg 2+ and Ca 2+ absorption in the kidney.</abstract><pub>The Physiological Society</pub><pmid>19528248</pmid><doi>10.1113/jphysiol.2009.173401</doi></addata></record> |
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| ispartof | The Journal of physiology, 2009-08, Vol.587 (15), p.3777 |
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| language | eng |
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| source | PubMed Central (Open Access); Wiley |
| title | Claudin-16 affects transcellular Clâ secretion in MDCK cells |
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