PUBLICATION

Melanosomes in pigmented epithelia maintain eye lens transparency during zebrafish embryonic development

Authors
Takamiya, M., Xu, F., Suhonen, H., Gourain, V., Yang, L., Ho, N.Y., Helfen, L., Schröck, A., Etard, C., Grabher, C., Rastegar, S., Schlunck, G., Reinhard, T., Baumbach, T., Strähle, U.
ID
ZDB-PUB-160505-5
Date
2016
Source
Scientific Reports   6: 25046 (Journal)
Registered Authors
Etard, Christelle, Gourain, Victor, Grabher, Clemens, Ho, Nga Yu, Rastegar, Sepand, Strähle, Uwe, Takamiya, Masanari, Yang, Lixin
Keywords
Embryonic induction, Mechanisms of disease, X-ray tomography
MeSH Terms
  • Lens, Crystalline/chemistry
  • Lens, Crystalline/embryology*
  • Lens, Crystalline/physiology*
  • Melanosomes/metabolism*
  • Trace Elements/analysis
  • Animals
  • Pigments, Biological/metabolism
  • Spectrometry, X-Ray Emission
  • Cataract/prevention & control
  • Embryonic Development*
  • Zebrafish/embryology*
  • Oxidative Stress
(all 12)
PubMed
27141993 Full text @ Sci. Rep.
Abstract
Altered levels of trace elements are associated with increased oxidative stress that is eventually responsible for pathologic conditions. Oxidative stress has been proposed to be involved in eye diseases, including cataract formation. We visualized the distribution of metals and other trace elements in the eye of zebrafish embryos by micro X-ray fluorescence (μ-XRF) imaging. Many elements showed highest accumulation in the retinal pigment epithelium (RPE) of the zebrafish embryo. Knockdown of the zebrafish brown locus homologues tyrp1a/b eliminated accumulation of these elements in the RPE, indicating that they are bound by mature melanosomes. Furthermore, albino (slc45a2) mutants, which completely lack melanosomes, developed abnormal lens reflections similar to the congenital cataract caused by mutation of the myosin chaperon Unc45b, and an in situ spin trapping assay revealed increased oxidative stress in the lens of albino mutants. Finally transplanting a wildtype lens into an albino mutant background resulted in cataract formation. These data suggest that melanosomes in pigment epithelial cells protect the lens from oxidative stress during embryonic development, likely by buffering trace elements.
Genes / Markers
Figures
Figure Gallery (6 images)
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Expression
No data available
Phenotype
Fish Conditions Stage Phenotype Figure
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
WT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsLong-pec
1 - 10 of 19
Show
Mutations / Transgenics
Allele Construct Type Affected Genomic Region
b4
    		Insertion
    pd49TgTransgenic Insertion
      sb60
        		Point Mutation
        1 - 3 of 3
        Show
        Human Disease / Model
        Human Disease Fish Conditions Evidence
        cataractWT + MO1-tyrp1a + MO2-tyrp1bstandard conditionsTAS
        cataractslc45a2b4/b4standard conditionsTAS
        hemochromatosis type 4TAS
        lens diseaseTAS
        1 - 4 of 4
        Show
        Sequence Targeting Reagents
        Target Reagent Reagent Type
        tyrp1aMO1-tyrp1aMRPHLNO
        tyrp1bMO2-tyrp1bMRPHLNO
        1 - 2 of 2
        Show
        Fish
        Fish
        pd49Tg
        slc45a2b4/b4
        unc45bsb60/sb60
        WT + MO1-tyrp1a + MO2-tyrp1b
        1 - 4 of 4
        Show
        Antibodies
        No data available
        Orthology
        No data available
        Engineered Foreign Genes
        Marker Marker Type Name
        CFPEFGCFP
        RFPEFGRFP
        YFPEFGYFP
        1 - 3 of 3
        Show
        Mapping
        No data available
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        Citation
        Takamiya, M., Xu, F., Suhonen, H., Gourain, V., Yang, L., Ho, N.Y., Helfen, L., Schröck, A., Etard, C., Grabher, C., Rastegar, S., Schlunck, G., Reinhard, T., Baumbach, T., Strähle, U. (2016) Melanosomes in pigmented epithelia maintain eye lens transparency during zebrafish embryonic development. Scientific Reports. 6:25046.