Role of zebrafish ClC-K/barttin channels in apical kidney chloride reabsorption

18 de julio de 2019

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Publicado en:Journal Of Physiology-London. 597 (15): 3969-3983 - 2019-08-01 597(15), DOI: 10.1113/JP278069

Autores: Pérez-Rius C., Castellanos A., Gaitán-Peñas H., Navarro A., Artuch R., Barrallo-Gimeno A., Estévez R.

Afiliaciones

Hosp St Joan de Deu, Inst Recerca St Joan de Deu, Clin Biochem Dept, Esplugas de Llobregat, Spain - Autor o Coautor

ISCIII, Ctr Invest Red Enfermedades Raras CIBERER, Madrid, Spain - Autor o Coautor

Traslational Medicine. Genes, Disease and Therapy Program. Physiology and pathology of the functional relationship between glia and neurons - Autor o Coautor

Univ Barcelona, IDIBELL Inst Neurosci, Hosp Llobregat,Unitat Fisiol, Genes Dis & Therapy Program,Dept Ciencies Fisiol, Barcelona, Spain - Autor o Coautor

Resumen

© 2019 The Authors. The Journal of Physiology © 2019 The Physiological Society Key points: We have characterized the zebrafish clc-k and barttin proteins, demonstrating that they form a protein complex mediating chloride flux in a similar manner to their mammalian counterparts. As in mammals, in zebrafish, clc-k and barttin are basically expressed in the kidney. Contrary to what is found in mammals, in zebrafish both proteins show an apical localization in the kidney. We have generated the first knockout in zebrafish of a CLC protein. Lack of clc-k in zebrafish resulted in embryonic lethality, possibly caused by a reduction in total chloride content. As a consequence, there is an up-regulation of other chloride channels and other regulatory mechanisms such as renin or the uro-guanylin receptor in the kidney. barttin is mislocalized in vivo when clc-k is not present, indicating that there is a mutual dependence of the protein expression and localization between barttin and clc-k proteins. Abstract: ClC-K/barttin channels are very important for salt transport in the kidney. This function can be clearly seen since mutations in CLCNKB or BSND cause Bartter's syndrome types III and IV, respectively. Working with the freshwater teleost zebrafish, we characterized the genes homologous to the mammalian chloride channel ClC-K and its obligate subunit barttin and we obtained and studied clc-k knockout zebrafish. The zebrafish clc-k/barttin proteins are very similar to their mammalian counterparts, and both proteins are necessary to mediate chloride currents. Localization studies indicated that both proteins are exclusively expressed in the apical membranes of zebrafish kidney tubules. Knockout of clc-k resulted in embryonic lethality. These animals showed barttin mislocalization and a reduction in whole-body chloride concentration, as well as up-regulation of the expression of other chloride channels and renin, and an increase in the kidney expression of the uroguanylin receptor. Our results indicate that apical kidney chloride reabsorption through clc-k/barttin channels is crucial for chloride homeostasis in zebrafish as it is in humans. The zebrafish model could be used as a new in vivo system to study ClC-K function.

Palabras clave

AdultAnimal cellAnimal experimentAnimal tissueAnimalsApical membraneArticleBarttinBarttin proteinBiochemical analysisBsnd protein, zebrafishCell membraneChloride channelChloride channelsChloride transportChloridesClc k proteinClc-kClcnk geneConcentration (parameter)Controlled studyElectrophysiologyEmbryoGeneGene insertionGene knockoutGenetic analysisHek293 cellsHek293t cell lineHumanHuman cellHumansIn vivo studyKidneyKidney tubule absorptionLethalityMolecular cloningMutationNonhumanOsmotic pressurePriority journalProtein depletionProtein expressionProtein functionProtein localizationProtein transportRatRenal reabsorptionReninUnclassified drugUpregulationUroguanylinWestern blottingZebra fishZebrafishZebrafish proteins

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Impacto bibliométrico. Análisis de la aportación y canal de difusión

El trabajo ha sido publicado en la revista Journal Of Physiology-London debido a la progresión y el buen impacto que ha alcanzado en los últimos años, según la agencia WoS (JCR), se ha convertido en una referencia en su campo. En el año de publicación del trabajo, 2019, se encontraba en la posición 11/81, consiguiendo con ello situarse como revista Q1 (Primer Cuartil), en la categoría Physiology.

Desde una perspectiva relativa, y atendiendo al indicador del impacto normalizado calculado a partir del Field Citation Ratio (FCR) de la fuente Dimensions, arroja un valor de: 2.6, lo que indica que, de manera comparada con trabajos en la misma disciplina y en el mismo año de publicación, lo ubica como trabajo citado por encima de la media. (fuente consultada: Dimensions Aug 2025)

De manera concreta y atendiendo a las diferentes agencias de indexación, el trabajo ha acumulado, hasta la fecha 2025-08-02, el siguiente número de citas:

WoS: 1
Scopus: 4
Europe PMC: 3

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