LRRC50, a Conserved Ciliary Protein Implicated in Polycystic Kidney Disease
- van Rooijen, E., Giles, R.H., Voest, E.E., van Rooijen, C., Schulte-Merker, S., and van Eeden, F.J.
- Journal of the American Society of Nephrology : JASN 19(6): 1128-1138 (Journal)
- Registered Authors
- Schulte-Merker, Stefan, van Eeden, Freek, van Rooijen, Carina, van Rooijen, Ellen
- MeSH Terms
- Polycystic Kidney Diseases/etiology*
- 18385425 Full text @ J. Am. Soc. Nephrol.
van Rooijen, E., Giles, R.H., Voest, E.E., van Rooijen, C., Schulte-Merker, S., and van Eeden, F.J. (2008) LRRC50, a Conserved Ciliary Protein Implicated in Polycystic Kidney Disease. Journal of the American Society of Nephrology : JASN. 19(6):1128-1138.
Cilia perform essential motile and sensory functions central to many developmental and physiological processes. Disruption of their structure or function can have profound phenotypic consequences, and has been linked to left-right patterning and polycystic kidney disease. In a forward genetic screen for mutations affecting ciliary motility, we isolated zebrafish mutant hu255H. The mutation was found to disrupt an ortholog of the uncharacterized highly conserved human SDS22-like leucine-rich repeat (LRR)-containing protein LRRC50 (16q24.1) and Chlamydomonas Oda7p. Zebrafish lrrc50 is specifically expressed in all ciliated tissues. lrrc50(hu255H) mutants develop pronephric cysts with an increased proliferative index, severely reduced brush border, and disorganized pronephric cilia manifesting impaired localized fluid flow consistent with ciliary dysfunction. Electron microscopy analysis r5H) mutants develop pronephric cysts with an increased proliferative index, severely reduced brush border, and disorganized pronephric cilia maevealed ultrastructural irregularities of the dynein arms and misalignments of the outer-doublet microtubules on the ciliary axonemes, suggesting instability of the ciliary architecture in lrrc50(hu255H) mutants. The SDS22-like leucine-rich repeats present in Lrrc50 are necessary for proper protein function, since injection of a deletion construct of the first LRR did not rescue the zebrafish mutant phenotype. Subcellular distribution of human LRRC50-EGFP in MDCK and HEK293T cells is diffusely cytoplasmic and concentrated at the mitotic spindle poles and cilium. LRRC50 RNAi knock-down in human proximal tubule HK-2 cells thoroughly recapitulated the zebrafish brush border and cilia phenotype, suggesting conservation of LRRC50 function between both species. In summary, we present the first genetic vertebrate model for lrrc50 function and propose LRRC50 to be a novel candidate gene for human cystic kidney disease, involved in regulation of microtubule-based cilia and actin-based brush border microvilli.
Genes / Markers
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Engineered Foreign Genes