Localization and Regulation of Claudin-14 in Experimental Models of Hypercalcemia

Sebastian Frische; R. Todd Alexander; Patrícia Ferreira; Rebecca Tan; Weidong Wang; Per Svenningsen; Karsten Skjødt; Henrik Dimke

doi:10.1152/AJPRENAL.00397.2020

Localization and Regulation of Claudin-14 in Experimental Models of Hypercalcemia

Sebastian Frische, R. Todd Alexander, Patrícia Ferreira, Rebecca Tan, Weidong Wang, Per Svenningsen, Karsten Skjødt, Henrik Dimke^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Variations in the claudin-14 ( CLDN14) gene have been linked to increased risk of hypercalciuria and kidney stone formation. However, the exact cellular localization of CLDN14 and its regulation remain to be fully delineated. To this end, we generated a novel antibody that allowed the detection of CLDN14 in paraffin-embedded renal sections. This showed CLDN14 to be detectable in the kidney only after induction of hypercalcemia in rodent models. Protein expression in the kidney is localized exclusively to the thick ascending limbs (TALs), mainly restricted to the cortical and upper medullary portion of the kidney. However, not all cells in the TALs expressed the tight junction protein. In fact, CLDN14 was primarily expressed in cells also expressing CLDN16 but devoid of CLDN10. CLDN14 appeared in very superficial apical cell domains and near cell junctions in a belt-like formation along the apical cell periphery. In transgenic mice, Cldn14 promotor-driven LacZ activity did not show complete colocalization with CLDN14 protein nor was it increased by hypercalcemia, suggesting that LacZ activity cannot be used as a marker for CLDN14 localization and regulation in this model. In conclusion, CLDN14 showed a restricted localization pattern in the apical domain of select cells of the TAL.

Original language	English
Journal	American Journal of Physiology: Renal Physiology
Volume	320
Issue number	1
Pages (from-to)	F74-F86
ISSN	1931-857X
DOIs	https://doi.org/10.1152/AJPRENAL.00397.2020
Publication status	Published - 13. Jan 2021

Keywords

Calcium-sensing receptor
Claudin-14
Hypercalciuria
Kidney
Thick ascending limb

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title = "Localization and Regulation of Claudin-14 in Experimental Models of Hypercalcemia",

abstract = "Variations in the claudin-14 ( CLDN14) gene have been linked to increased risk of hypercalciuria and kidney stone formation. However, the exact cellular localization of CLDN14 and its regulation remain to be fully delineated. To this end, we generated a novel antibody that allowed the detection of CLDN14 in paraffin-embedded renal sections. This showed CLDN14 to be detectable in the kidney only after induction of hypercalcemia in rodent models. Protein expression in the kidney is localized exclusively to the thick ascending limbs (TALs), mainly restricted to the cortical and upper medullary portion of the kidney. However, not all cells in the TALs expressed the tight junction protein. In fact, CLDN14 was primarily expressed in cells also expressing CLDN16 but devoid of CLDN10. CLDN14 appeared in very superficial apical cell domains and near cell junctions in a belt-like formation along the apical cell periphery. In transgenic mice, Cldn14 promotor-driven LacZ activity did not show complete colocalization with CLDN14 protein nor was it increased by hypercalcemia, suggesting that LacZ activity cannot be used as a marker for CLDN14 localization and regulation in this model. In conclusion, CLDN14 showed a restricted localization pattern in the apical domain of select cells of the TAL. ",

keywords = "Calcium-sensing receptor, Claudin-14, Hypercalciuria, Kidney, Thick ascending limb",

author = "Sebastian Frische and Alexander, \{R. Todd\} and Patr{\'i}cia Ferreira and Rebecca Tan and Weidong Wang and Per Svenningsen and Karsten Skj{\o}dt and Henrik Dimke",

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T1 - Localization and Regulation of Claudin-14 in Experimental Models of Hypercalcemia

AU - Frische, Sebastian

AU - Alexander, R. Todd

AU - Ferreira, Patrícia

AU - Tan, Rebecca

AU - Wang, Weidong

AU - Svenningsen, Per

AU - Skjødt, Karsten

AU - Dimke, Henrik

PY - 2021/1/13

Y1 - 2021/1/13

N2 - Variations in the claudin-14 ( CLDN14) gene have been linked to increased risk of hypercalciuria and kidney stone formation. However, the exact cellular localization of CLDN14 and its regulation remain to be fully delineated. To this end, we generated a novel antibody that allowed the detection of CLDN14 in paraffin-embedded renal sections. This showed CLDN14 to be detectable in the kidney only after induction of hypercalcemia in rodent models. Protein expression in the kidney is localized exclusively to the thick ascending limbs (TALs), mainly restricted to the cortical and upper medullary portion of the kidney. However, not all cells in the TALs expressed the tight junction protein. In fact, CLDN14 was primarily expressed in cells also expressing CLDN16 but devoid of CLDN10. CLDN14 appeared in very superficial apical cell domains and near cell junctions in a belt-like formation along the apical cell periphery. In transgenic mice, Cldn14 promotor-driven LacZ activity did not show complete colocalization with CLDN14 protein nor was it increased by hypercalcemia, suggesting that LacZ activity cannot be used as a marker for CLDN14 localization and regulation in this model. In conclusion, CLDN14 showed a restricted localization pattern in the apical domain of select cells of the TAL.

AB - Variations in the claudin-14 ( CLDN14) gene have been linked to increased risk of hypercalciuria and kidney stone formation. However, the exact cellular localization of CLDN14 and its regulation remain to be fully delineated. To this end, we generated a novel antibody that allowed the detection of CLDN14 in paraffin-embedded renal sections. This showed CLDN14 to be detectable in the kidney only after induction of hypercalcemia in rodent models. Protein expression in the kidney is localized exclusively to the thick ascending limbs (TALs), mainly restricted to the cortical and upper medullary portion of the kidney. However, not all cells in the TALs expressed the tight junction protein. In fact, CLDN14 was primarily expressed in cells also expressing CLDN16 but devoid of CLDN10. CLDN14 appeared in very superficial apical cell domains and near cell junctions in a belt-like formation along the apical cell periphery. In transgenic mice, Cldn14 promotor-driven LacZ activity did not show complete colocalization with CLDN14 protein nor was it increased by hypercalcemia, suggesting that LacZ activity cannot be used as a marker for CLDN14 localization and regulation in this model. In conclusion, CLDN14 showed a restricted localization pattern in the apical domain of select cells of the TAL.

KW - Calcium-sensing receptor

KW - Claudin-14

KW - Hypercalciuria

KW - Kidney

KW - Thick ascending limb

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DO - 10.1152/AJPRENAL.00397.2020

M3 - Journal article

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SN - 1931-857X

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JO - American Journal of Physiology: Renal Physiology

JF - American Journal of Physiology: Renal Physiology

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Localization and Regulation of Claudin-14 in Experimental Models of Hypercalcemia

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