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Biomed Res Int. 2015;2015:769763. doi: 10.1155/2015/769763. Epub 2015 Aug 31.

Regeneration, Plasticity, and Induced Molecular Programs in Adult Zebrafish Brain.

Author information

1
German Centre for Neurodegenerative Diseases (DZNE), The Helmholtz Association, Arnoldstraße 18, 01307 Dresden, Germany ; DFG-Center for Regenerative Therapies Dresden (CRTD), Cluster of Excellence at the TU Dresden, Fetscherstraße 105, 01307 Dresden, Germany.

Abstract

Regenerative capacity of the brain is a variable trait within animals. Aquatic vertebrates such as zebrafish have widespread ability to renew their brains upon damage, while mammals have--if not none--very limited overall regenerative competence. Underlying cause of such a disparity is not fully evident; however, one of the reasons could be activation of peculiar molecular programs, which might have specific roles after injury or damage, by the organisms that regenerate. If this hypothesis is correct, then there must be genes and pathways that (a) are expressed only after injury or damage in tissues, (b) are biologically and functionally relevant to restoration of neural tissue, and (c) are not detected in regenerating organisms. Presence of such programs might circumvent the initial detrimental effects of the damage and subsequently set up the stage for tissue redevelopment to take place by modulating the plasticity of the neural stem/progenitor cells. Additionally, if transferable, those "molecular mechanisms of regeneration" could open up new avenues for regenerative therapies of humans in clinical settings. This review focuses on the recent studies addressing injury/damage-induced molecular programs in zebrafish brain, underscoring the possibility of the presence of genes that could be used as biomarkers of neural plasticity and regeneration.

PMID:
26417601
PMCID:
PMC4568348
DOI:
10.1155/2015/769763
[Indexed for MEDLINE]
Free PMC Article

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