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Mouse K-Cl cotransporter KCC1: cloning, mapping, pathological expression, and functional regulation
Authors:Su, Wanfang   Shmukler, Boris E.   Chernova, Marina N.   Stuart-Tilley, Alan K.   de Franceschi, Lucia   Brugnara, Carlo   Alper, Seth L.
Abstract:Although K-Cl cotransporter (KCC1) mRNA is expressed in manytissues, K-Cl cotransport activity has been measured in few cell types,and detection of endogenous KCC1 polypeptide has not yet been reported.We have cloned the mouse erythroid KCC1 (mKCC1) cDNA and its flankinggenomic regions and mapped the mKCC1 gene to chromosome 8. Threeanti-peptide antibodies raised against recombinant mKCC1 function asimmunoblot and immunoprecipitation reagents. The tissue distributionsof mKCC1 mRNA and protein are widespread, and mKCC1 RNA isconstitutively expressed during erythroid differentiation of ES cells.KCC1 polypeptide or related antigen is present in erythrocytes ofmultiple species in which K-Cl cotransport activity has beendocumented. Erythroid KCC1 polypeptide abundance is elevated inproportion to reticulocyte counts in density-fractionated cells, inbleeding-induced reticulocytosis, in mouse models of sickle celldisease and thalassemia, and in the corresponding human disorders.mKCC1-mediated uptake of 86Rb intoXenopus oocytes requires extracellularCl-, is blocked by thediureticR(+)-[2-n-butyl-6,7-dichloro-2-cyclopentyl-2,3-dihydro-1-oxo-1H-indenyl-5-yl-)oxy]acetic acid, and exhibits an erythroid pattern of acute regulation, with activation by hypotonic swelling,N-ethylmaleimide, and staurosporine and inhibition by calyculin and okadaic acid. These reagents and findings will expedite studies of KCC1 structure-function relationships and of the pathobiology of KCC1-mediated K-Cl cotransport.

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