A WDR47 homolog facilitates ciliogenesis by modulating intraflagellar transport.

Abstract

Cilia are conserved organelles found in many cell types in eukaryotes, and their dysfunction causes defects in environmental sensing and signaling transduction; such defects are termed ciliopathies. Distinct cilia have cell-specific morphologies and exert distinct functions. However, the underlying mechanisms of cell-specific ciliogenesis and regulation are unclear. Here, we identified a WD40-repeat (WDR) protein, NMTN-1 (the homolog of mammalian WDR47), and show that it is specifically required for ciliogenesis of AWB chemosensory neurons in C. elegans. NMTN-1 is expressed in the AWB chemosensory neuron pair, and is enriched at the basal body (BB) of the AWB cilia. Knockout of nmtn-1 causes abnormal AWB neuron cilia morphology, structural integrity, and induces aberrant AWB-mediated aversive behaviors. We further demonstrate that nmtn-1 deletion affects movement of intraflagellar transport (IFT) particles and their cargo delivery in AWB neurons. Our results indicate that NMTN-1 is essential for AWB neuron ciliary morphology and function, which reveal a novel mechanism for cell-specific ciliogenesis. Given that WDR47/NMTN-1 is conserved in mammals, our findings may help understanding of the process of cell-specific ciliogenesis and provide insights for treating ciliopathies.