PUBLICATION

A novel role for the chloride intracellular channel protein Clic5 in ciliary function

Authors
Ott, E., Hoff, S., Indorf, L., Ditengou, F.A., Müller, J., Renschler, G., Lienkamp, S.S., Kramer-Zucker, A., Bergmann, C., Epting, D.
ID
ZDB-PUB-231018-54
Date
2023
Source
Scientific Reports   13: 1764717647 (Journal)
Registered Authors
Epting, Daniel, Kramer-Zucker, Albrecht, Ott, Elisabeth B.
Keywords
none
MeSH Terms
  • Actin Cytoskeleton/metabolism
  • Animals
  • Chloride Channels*/genetics
  • Chloride Channels*/metabolism
  • Chlorides*/metabolism
  • Cilia*/genetics
  • Cilia*/metabolism
  • Kidney Glomerulus*/metabolism
  • Microfilament Proteins*/genetics
  • Microfilament Proteins*/metabolism
  • Zebrafish*/genetics
  • Zebrafish*/metabolism
PubMed
37848494 Full text @ Sci. Rep.
Abstract
CLIC5 belongs to a family of ion channels with six members reported so far. In vertebrates, the CLIC5 gene encodes two different isoforms, CLIC5A and CLIC5B. In addition to its ion channel activity, there is evidence for further functions of CLIC5A, such as the remodeling of the actin cytoskeleton during the formation of a functional glomerulus in the vertebrate kidney. However, its specific role is still incompletely understood and a specific functional role for CLIC5B has not been described yet. Here we report our findings on the differential expression and functions of Clic5a and Clic5b during zebrafish kidney development. Whole-mount in situ hybridization studies revealed specific expression of clic5a in the eye and pronephric glomerulus, and clic5b is expressed in the gut, liver and the pronephric tubules. Clic5 immunostainings revealed that Clic5b is localized in the cilia. Whereas knockdown of Clic5a resulted in leakiness of the glomerular filtration barrier, Clic5b deficient embryos displayed defective ciliogenesis, leading to ciliopathy-associated phenotypes such as ventral body curvature, otolith deposition defects, altered left-right asymmetry and formation of hydrocephalus and pronephric cysts. In addition, Clic5 deficiency resulted in dysregulation of cilia-dependent Wnt signalling pathway components. Mechanistically, we identified a Clic5-dependent activation of the membrane-cytoskeletal linker proteins Ezrin/Radixin/Moesin (ERM) in the pronephric tubules of zebrafish. In conclusion, our in vivo data demonstrates a novel role for Clic5 in regulating essential ciliary functions and identified Clic5 as a positive regulator of ERM phosphorylation.
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