Literature DB >> 33372066

Interaction of INPP5E with ARL13B is essential for its ciliary membrane retention but dispensable for its ciliary entry.

Hantian Qiu1, Sayaka Fujisawa1, Shohei Nozaki1, Yohei Katoh2, Kazuhisa Nakayama2.   

Abstract

Compositions of proteins and lipids within cilia and on the ciliary membrane are maintained to be distinct from those of the cytoplasm and plasma membrane, respectively, by the presence of the ciliary gate. INPP5E is a phosphoinositide 5-phosphatase that is localized on the ciliary membrane by anchorage via its C-terminal prenyl moiety. In addition, the ciliary membrane localization of INPP5E is determined by the small GTPase ARL13B. However, it remained unclear as to how ARL13B participates in the localization of INPP5E. We here show that wild-type INPP5E, INPP5E(WT), in ARL13B-knockout cells and an INPP5E mutant defective in ARL13B binding, INPP5E(ΔCTS), in control cells were unable to show steady-state localization on the ciliary membrane. However, not only INPP5E(WT) but also INPP5E(ΔCTS) was able to rescue the abnormal localization of ciliary proteins in INPP5E-knockout cells. Analysis using the chemically induced dimerization system demonstrated that INPP5E(WT) in ARL13B-knockout cells and INPP5E(ΔCTS) in control cells were able to enter cilia, but neither was retained on the ciliary membrane due to the lack of the INPP5E-ARL13B interaction. Thus, our data demonstrate that binding of INPP5E to ARL13B is essential for its steady-state localization on the ciliary membrane but is dispensable for its entry into cilia.
© 2021. Published by The Company of Biologists Ltd.

Entities:  

Keywords:  ARL13B; Cilia; INPP5E

Mesh:

Substances:

Year:  2021        PMID: 33372066      PMCID: PMC7860134          DOI: 10.1242/bio.057653

Source DB:  PubMed          Journal:  Biol Open        ISSN: 2046-6390            Impact factor:   2.643


  67 in total

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10.  PDE6δ-mediated sorting of INPP5E into the cilium is determined by cargo-carrier affinity.

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6.  ARL3 and ARL13B GTPases participate in distinct steps of INPP5E targeting to the ciliary membrane.

Authors:  Sayaka Fujisawa; Hantian Qiu; Shohei Nozaki; Shuhei Chiba; Yohei Katoh; Kazuhisa Nakayama
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  8 in total

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