Knocking out Lca5 in Zebrafish Causes Cone-rod Dystrophy Due to Impaired Outer Segment Protein Trafficking

Overview

Journal Biochim Biophys Acta Mol Basis Dis

Publisher Elsevier

Specialties Biochemistry
Biophysics
Genetics
Molecular Biology

Date 2019 Jul 27

PMID 31348989

Citations 17

Authors

Zhen Qu

Tinsae Assefa Yimer

Shanglun Xie

Fulton Wong

Shanshan Yu

Xiliang Liu

Shanshan Han

Juanjuan Ma

Zhaojing Lu

Xuebin Hu

Yayun Qin

Yuwen Huang

Yuexia Lv

Jingzhen Li

Zhaohui Tang

Fei Liu

Mugen Liu

Affiliations

Soon will be listed here.

Abstract

Leber congenital amaurosis (LCA) is the most serious form of inherited retinal dystrophy that leads to blindness or severe visual impairment within a few months after birth. Approximately 1-2% of the reported cases are caused by mutations in the LCA5 gene. This gene encodes a ciliary protein called LCA5 that is localized to the connecting cilium of photoreceptors. The retinal phenotypes caused by LCA5 mutations and the underlying pathological mechanisms are still not well understood. In this study, we knocked out the lca5 gene in zebrafish using CRISPR/Cas9 technology. An early onset visual defect is detected by the ERG in 7 dpf lca5 zebrafish. Histological analysis by HE staining and immunofluorescence reveal progressive degeneration of rod and cone photoreceptors, with a pattern that cones are more severely affected than rods. In addition, ultrastructural analysis by transmission electron microscopy shows disordered and broken membrane discs in rods' and cones' outer segments, respectively. In our lca5 zebrafish, the red-cone opsin and cone α-transducin are selectively mislocalized to the inner segment and synaptic terminal. Moreover, we found that Ift88, a key component of the intraflagellar transport complex, is retained in the outer segments. These data suggest that the intraflagellar transport complex-mediated outer segment protein trafficking might be impaired due to lca5 deletion, which finally leads to a type of retinal degeneration mimicking the phenotype of cone-rod dystrophy in human. Our work provides a novel animal model to study the physiological function of LCA5 and develop potential treatments of LCA.

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