Axoneme polyglutamylation regulated by Joubert syndrome protein ARL13B controls ciliary targeting of signaling molecules

Kai He,Xiaoyu Ma,Allen Hodge,Jinghua Hu,Qing Zhang,Tao Xu,Kun Ling,Julia Torline,Yan Li,Jian Zhao,Yan Huang

doi:10.1038/s41467-018-05867-1

Kai He, Xiaoyu Ma + Show 9 more

Open Access

https://doi.org/10.1038/s41467-018-05867-1

Copy DOI

Journal: Nature Communications	Publication Date: Aug 17, 2018
Citations: 64	License type: open-access

Affiliation: Mayo Clinic, Winneshiek Medical Center

Abstract

Tubulin polyglutamylation is a predominant axonemal post-translational modification. However, if and how axoneme polyglutamylation is essential for primary cilia and contribute to ciliopathies are unknown. Here, we report that Joubert syndrome protein ARL13B controls axoneme polyglutamylation, which is marginally required for cilia stability but essential for cilia signaling. ARL13B interacts with RAB11 effector FIP5 to promote cilia import of glutamylase TTLL5 and TTLL6. Hypoglutamylation caused by a deficient ARL13B-RAB11-FIP5 trafficking pathway shows no effect on ciliogenesis, but promotes cilia disassembly and, importantly, impairs cilia signaling by disrupting the proper anchoring of sensory receptors and trafficking of signaling molecules. Remarkably, depletion of deglutamylase CCP5, the predominant cilia deglutamylase, effectively restores hypoglutamylation-induced cilia defects. Our study reveals a paradigm that tubulin polyglutamylation is a major contributor for cilia signaling and suggests a potential therapeutic strategy by targeting polyglutamylation machinery to promote ciliary targeting of signaling machineries and correct signaling defects in ciliopathies.

Highlights

Tubulin polyglutamylation is a predominant axonemal post-translational modification
GST pull-down showed that ARL13B directly interacts with FIP5 and this interaction depends on the Proline-rich region of ARL13B (Fig. 1b)
To further confirm that the ciliary localization of polycystins depends on glutamylation dynamics, we examined retinal pigment epithelium (RPE) cells with either co-depletion of CCP5 and FIP5 or tubulin tyrosine ligase-like (TTLL) (TTLL5 or TTLL6)

Summary

Introduction

If and how axoneme polyglutamylation is essential for primary cilia and contribute to ciliopathies are unknown. We report that Joubert syndrome protein ARL13B controls axoneme polyglutamylation, which is marginally required for cilia stability but essential for cilia signaling. ARL13B interacts with RAB11 effector FIP5 to promote cilia import of glutamylase TTLL5 and TTLL6. Hypoglutamylation caused by a deficient ARL13B-RAB11-FIP5 trafficking pathway shows no effect on ciliogenesis, but promotes cilia disassembly and, importantly, impairs cilia signaling by disrupting the proper anchoring of sensory receptors and trafficking of signaling molecules. Mislocalization of tubulin glutamylase TTLL6 is found in Joubert syndrome[9]. Mutation in the human Joubert syndrome CEP41 gene results in aberrant TTLL6 ciliary targeting[9], it is not clear how this is regulated and if and how the reduction in axonemal polyglutamylation causes ciliopathies. Our understanding about ARL13B is still limited due to the lack of knowledge about the full spectrum of its regulators/interactors

Methods

Results

Conclusion