Functional Interactions Between the Ciliopathy-associated Meckel Syndrome 1 (MKS1) Protein and Two Novel MKS1-related (MKSR) Proteins

Overview

Journal J Cell Sci

Specialty Cell Biology

Date 2009 Feb 12

PMID 19208769

Citations 45

Authors

Nathan J Bialas

Peter N Inglis

Chunmei Li

Jon F Robinson

Jeremy D K Parker

Michael P Healey

Erica E Davis

Chrystal D Inglis

Tiina Toivonen

David C Cottell

Oliver E Blacque

Lynne M Quarmby

Nicholas Katsanis

Michel R Leroux

Affiliations

Soon will be listed here.

Abstract

Meckel syndrome (MKS) is a ciliopathy characterized by encephalocele, cystic renal disease, liver fibrosis and polydactyly. An identifying feature of MKS1, one of six MKS-associated proteins, is the presence of a B9 domain of unknown function. Using phylogenetic analyses, we show that this domain occurs exclusively within a family of three proteins distributed widely in ciliated organisms. Consistent with a ciliary role, all Caenorhabditis elegans B9-domain-containing proteins, MKS-1 and MKS-1-related proteins 1 and 2 (MKSR-1, MKSR-2), localize to transition zones/basal bodies of sensory cilia. Their subcellular localization is largely co-dependent, pointing to a functional relationship between the proteins. This localization is evolutionarily conserved, because the human orthologues also localize to basal bodies, as well as cilia. As reported for MKS1, disrupting human MKSR1 or MKSR2 causes ciliogenesis defects. By contrast, single, double and triple C. elegans mks/mksr mutants do not display overt defects in ciliary structure, intraflagellar transport or chemosensation. However, we find genetic interactions between all double mks/mksr mutant combinations, manifesting as an increased lifespan phenotype, which is due to abnormal insulin-IGF-I signaling. Our findings therefore demonstrate functional interactions between a novel family of proteins associated with basal bodies or cilia, providing new insights into the molecular etiology of a pleiotropic human disorder.

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