Abstract
The thiazide-sensitive NaCl cotransporter (NCC) is responsible for the reabsorption of 5% of the filtered load of NaCl in the kidney. Mutations in NCC cause Gitelman syndrome. To gain insight into its regulation, detailed information on the structural composition of its functional unit is essential. Western blot analysis of total membranes of Xenopus laevis oocytes heterologously expressing FLAG-tagged NCC revealed the presence of both complex-(140-kDa) and core (100-kDa)-glycosylated monomers and a broad band of high molecular mass (250-350-kDa) complexes. Chemical cross-linking with dithiobispropionimidate eliminated the low molecular weight bands and increased the intensity of the high molecular weight bands, indicating that NCC is present in multimeric complexes. Co-expression of HA- and FLAG-tagged NCC followed by co-immunoprecipitation demonstrated that these multimers contained at least two complex-glycosylated NCC proteins. The dimeric nature of the multimers was further substantiated by sucrose gradient centrifugation yielding a peak of approximately 310 kDa. A concatameric construct of two NCC polyproteins exhibited significant 22Na+ uptake, indicating that the transporter is functional as a homodimer. A concatamer of partially retarded G980R- and wild type (wt)-NCC displayed normal Na+ transport. This demonstrates that G980R-NCC, provided that it reaches the surface, is fully active and that wt-NCC is dominant in its association with this mutant. Conversely a concatamer of fully retarded G741R- and wt-NCC did not reach the cell surface, showing that wt-NCC is recessive in its association with this mutant. Oocytes co-expressing G741R- and wt-NCC did not show G741R staining at the plasma membrane, whereas Na+ transport was normal, indicating that wt-NCC dimerizes preferentially with itself. The results are discussed in relation to the recessive nature of NCC mutants in Gitelman syndrome.
Highlights
The thiazide-sensitive Naϩ-ClϪ cotransporter (NCC)1 is mainly expressed in the distal convoluted tubule of the kidney
Interaction between Subunits of NaCl cotransporter (NCC)—First we investigated whether NCC proteins can form oligomeric structures
This indicates that the high molecular weight complexes observed in the absence of DTBP represent NCC multimers
Summary
The thiazide-sensitive Naϩ-ClϪ cotransporter (NCC) is mainly expressed in the distal convoluted tubule of the kidney. The cotransporter belongs to a gene family called the electroneutral cation-chloride cotransporters, encompassing the NCC [2, 3], two Naϩ-Kϩ-2ClϪ cotransporters (NKCC1 and NKCC2) [4, 5], and at least four Kϩ-ClϪ cotransporters (KCC1– 4) (6 –10) Genes encoding these transmembrane proteins are highly homologous and share a common predicted membrane topology of 12 transmembrane domains with both N and C termini located in the cytoplasm [11]. Class II mutants showed a marked metolazone-sensitive 22Naϩ uptake, which was, significantly lower than that obtained with the wild type transporter. These mutants were detected both at and below the plasma membrane. It cannot be excluded that these patients do express the normal protein, which is inactivated in one way or another by the mutant protein
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