Abstract
Cilia are microtubule-based organelles projected from most eukaryotic cell surfaces performing cell motility and signaling. Several previously recognized non-ciliary proteins play crucial roles in cilium formation and function. Here, we provide additional evidence that the Caenorhabditis elegans RNA splicing factor PRP-8/PRPF8 regulates ciliogenesis and regeneration from the ciliary base. Live imaging of GFP knock-in animals reveals that the endogenous PRP-8 localizes in the nuclei and the ciliary base. A weak loss-of-function allele of prp-8 affects ciliary structure but with little impact on RNA splicing. Conditional degradation of PRP-8 within ciliated sensory neurons showed its direct and specific roles in cilium formation. Notably, the penetrance of ciliary defects correlates with the reduction of PRP-8 at the ciliary base but not nuclei, and sensory neurons regenerated cilia accompanying PRP-8 recovery from the ciliary base rather than the nuclei. We suggest that PRP-8 at the ciliary base contributes to cilium formation and regeneration.
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