Abstract
Nephrocystin is the protein product of the gene mutated in juvenile nephronophthisis, an autosomal recessive cystic kidney disease afflicting children and young adults. Because the normal cellular function of nephrocystin is largely unknown, the molecular defects underlying disease pathogenesis remain obscure. Analysis of nephrocystin amino acid sequences from human and other species revealed three distinct conserved domains including Src homology 3 and coil-coil domains in the N-terminal region, as well as a large highly conserved C-terminal region bearing no obvious homology to other proteins and hence referred to as the "nephrocystin homology domain" (NHD). The objective of this study was to gain insight into nephrocystin function by defining functional properties of the conserved domains. We analyzed a series of nephrocystin deletion mutants expressed in Madin-Darby canine kidney and COS-7 cells. This analysis revealed previously unrecognized functional attributes of the NHD, including abilities to promote both self-association and epithelial cell-cell junctional targeting. We further observed that Madin-Darby canine kidney cell lines stably expressing a nephrocystin mutant with a deletion of the Src homology 3 domain have reduced ability to establish tight junctions as measured by transepithelial electrical resistance. Finally, from a two-hybrid screen and coimmunoprecipitation studies we identified members of the filamin family of actin-binding proteins as having the capacity to interact with the NHD. These findings support a functional role for nephrocystin as a docking protein involved in organizing a protein complex to regulate the actin cytoskeleton at sites of epithelial cell-cell adhesion and further suggest that these properties are important for establishing epithelial cell polarity.
Highlights
Juvenile nephronophthisis, the most frequent genetic cause of end-stage renal disease in children and young adults, is characterized by kidney tubular atrophy and cyst formation occurring primarily at the corticomedullary border
Plasmids expressing Myctagged nephrocystin variants were transfected in COS-7 cells, and expression was analyzed by immunoprecipitation and immunoblotting using the 9E10 antibody against the Myc tag (Fig. 2B, top panel)
In this study we examined various functional properties of major conserved domains in nephrocystin including the coiledcoil and Src homology 3 (SH3) domains in the N-terminal region, as well as the large highly conserved nephrocystin homology domain” (NHD) that makes up the C-terminal two-thirds of the protein
Summary
Juvenile nephronophthisis (nephronophthisis type 1), the most frequent genetic cause of end-stage renal disease in children and young adults, is characterized by kidney tubular atrophy and cyst formation occurring primarily at the corticomedullary border (reviewed in Refs. 1– 4). The most notable structural feature is a Src homology 3 (SH3) domain, a widespread protein-protein interaction module recognizing proline-rich motifs, which spans residues 157–207 of human nephrocystin Another structural feature predicted from the nephrocystin amino acid sequence is a series of three 17–18residue stretches, all within the N-terminal 105 amino acid residues, predicted to form short coiled-coil domains [7, 8]. Comparison of the human and mouse sequences indicate that the N-terminal region of predicted coiled-coiled domains and the nearby SH3 domain are well conserved, with each showing 80% amino acid identity. The C-terminal two-thirds of nephrocystin (human residues 228 – 677 and mouse residues 241– 691) is even more highly conserved with 87% amino acid identity, indicating that this region of the protein has an important function conserved through evolution. Nephrocystin may function in many cell types, the pathogenic consequence of loss-of-function is confined largely to the kidney
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