Summary of ssbd-repos-00055

SSBD:database
URL

Name
ssbd-repos-00055 (55-Maekawa-ESCellDyn)
URL
DOI
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Title
Image data of of the three-dimensional-retinas from Fstl4
Description
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Submited Date
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Release Date
2018-11-14
Updated Date
-
License
Funding information
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File formats
Data size
54.9 MB

Organism
M. musculus
Strain
ES
Cell Line
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Genes
Fstl4
Proteins
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GO Molecular Function (MF)
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GO Biological Process (BP)
NA
GO Cellular Component (CC)
NA
Study Type
-
Imaging Methods
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Method Summary
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Related paper(s)

Yuki Maekawa, Akishi Onishi, Keizo Matsushita, Naoshi Koide, Michiko Mandai, Kiyoshi Suzuma, Takashi Kitaoka, Atsushi Kuwahara, Chikafumi Ozone, Tokushige Nakano, Mototsugu Eiraku, Masayo Takahashi (2016) Optimized Culture System to Induce Neurite Outgrowth From Retinal Ganglion Cells in Three-Dimensional Retinal Aggregates Differentiated From Mouse and Human Embryonic Stem Cells., Current eye research, Volume 41, Number 4, pp. 558-68

Published in 2016 Apr (Electronic publication in April 16, 2015, midnight )

(Abstract) PURPOSE: To establish a practical research tool for studying the pathogenesis of retinal ganglion cell (RGC) diseases, we optimized culture procedures to induce neurite outgrowth from three-dimensional self-organizing optic vesicles (3D-retinas) differentiated in vitro from mouse and human embryonic stem cells (ESCs). MATERIALS AND METHODS: The developing 3D-retinas isolated at various time points were placed on Matrigel-coated plates and cultured in media on the basis of the 3D-retinal culture or the retinal organotypic culture protocol. The number, length, and morphology of the neurites in each culture condition were compared. RESULTS: First, we confirmed that Venus-positive cells were double-labeled with a RGC marker, Brn3a, in the 3D-retina differentiated from Fstl4::Venus mouse ESCs, indicating specific RGC-subtype differentiation. Second, Venus-positive neurites grown from these RGC subsets were positive for beta-III tubulin and SMI312 by immunohistochemistry. Enhanced neurite outgrowth was observed in the B27-supplemented Neurobasal-A medium on Matrigel-coated plates from the optic vesicles isolated after 14 days of differentiation from mouse ESCs. For the differentiated RGCs from human ESCs, we obtained neurite extension of >4 mm by modifying Matrigel coating and the culture medium from the mouse RGC culture. CONCLUSION: We successfully optimized the culture conditions to enhance lengthy and high-frequency neurite outgrowth in mouse and human models. The procedure would be useful for not only developmental studies of RGCs, including maintenance and projection, but also clinical, pathological, and pharmacological studies of human RGC diseases.
(MeSH Terms)

Contact(s)
Akishi Onishi
Organization(s)
RIKEN , Center for Developmental Biology , Laboratory for Retinal Regeneration
Image Data Contributors
Quantitative Data Contributors

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