Zebrafish Models of Neurodevelopmental Disorders: Limitations and Benefits of Current Tools and Techniques

被引:84
作者
Vaz, Raquel [1 ]
Hofmeister, Wolfgang [2 ,3 ]
Lindstrand, Anna [4 ]
机构
[1] Karolinska Inst, Ctr Mol Med, Dept Mol Med & Surg, S-17176 Stockholm, Sweden
[2] Odense Univ Hosp, Dept Clin Biochem & Pharmacol, Lab Mol & Cellular Cardiol, DK-5000 Odense, Denmark
[3] Univ Copenhagen, Novo Nordisk Fdn Stem Cell Biol Danstem, DK-2200 Copenhagen, Denmark
[4] Karolinska Univ Hosp, Karolinska Univ Lab, Ctr Mol Med & Clin Genet, Dept Mol Med & Surg, S-17176 Stockholm, Sweden
来源
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES | 2019年 / 20卷 / 06期
关键词
zebrafish; neurodevelopmental disorders; disease models; functional assays; TARGETED GENE-EXPRESSION; ATTENTION-DEFICIT/HYPERACTIVITY DISORDER; DANIO-RERIO; TRANSGENIC ZEBRAFISH; SEX-DIFFERENCES; OLFACTORY-BULB; SPINAL-CORD; NEURONS; MUTATIONS; BRAIN;
D O I
10.3390/ijms20061296
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
For the past few years there has been an exponential increase in the use of animal models to confirm the pathogenicity of candidate disease-causing genetic variants found in patients. One such animal model is the zebrafish. Despite being a non-mammalian animal, the zebrafish model has proven its potential in recapitulating the phenotypes of many different human genetic disorders. This review will focus on recent advances in the modeling of neurodevelopmental disorders in zebrafish, covering aspects from early brain development to techniques used for modulating gene expression, as well as how to best characterize the resulting phenotypes. We also review other existing models of neurodevelopmental disorders, and the current efforts in developing and testing compounds with potential therapeutic value.
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页数:26
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共 176 条
[101]   Fluorescent indicators for Ca2+ based on green fluorescent proteins and calmodulin [J].
Miyawaki, A ;
Llopis, J ;
Heim, R ;
McCaffery, JM ;
Adams, JA ;
Ikura, M ;
Tsien, RY .
NATURE, 1997, 388 (6645) :882-887
[102]   Constructing the hindbrain: Insights from the zebrafish [J].
Moens, CB ;
Prince, VE .
DEVELOPMENTAL DYNAMICS, 2002, 224 (01) :1-17
[103]   Targeted DNA demethylation in vivo using dCas9-peptide repeat and scFv-TET1 catalytic domain fusions [J].
Morita, Sumiyo ;
Noguchi, Hirofumi ;
Horii, Takuro ;
Nakabayashi, Kazuhiko ;
Kimura, Mika ;
Okamura, Kohji ;
Sakai, Atsuhiko ;
Nakashitna, Hideyuki ;
Hata, Kenichiro ;
Nakashima, Kinichi ;
Hatada, Izuho .
NATURE BIOTECHNOLOGY, 2016, 34 (10) :1060-1065
[104]   Acute tryptophan depletion attenuates brain-heart coupling following external feedback [J].
Mueller, Erik M. ;
Evers, Elisabeth A. ;
Wacker, Jan ;
van der Veen, Freddy .
FRONTIERS IN HUMAN NEUROSCIENCE, 2012, 6 :1-32
[105]   The dorsal pallium in zebrafish, Danio rerio (Cyprinidae, Teleostei) [J].
Mueller, Thomas ;
Dong, Zhiqiang ;
Berberoglu, Michael A. ;
Guo, Su .
BRAIN RESEARCH, 2011, 1381 :95-105
[106]   The Distribution of GAD67-mRNA in the Adult Zebrafish (Teleost) Forebrain Reveals a Prosomeric Pattern and Suggests Previously Unidentified Homologies to Tetrapods [J].
Mueller, Thomas ;
Guo, Su .
JOURNAL OF COMPARATIVE NEUROLOGY, 2009, 516 (06) :553-568
[107]   LARGE-SCALE MUTAGENESIS IN THE ZEBRAFISH - IN SEARCH OF GENES-CONTROLLING DEVELOPMENT IN A VERTEBRATE [J].
MULLINS, MC ;
HAMMERSCHMIDT, M ;
HAFFTER, P ;
NUSSLEINVOLHARD, C .
CURRENT BIOLOGY, 1994, 4 (03) :189-202
[108]   Effective targeted gene 'knockdown' in zebrafish [J].
Nasevicius, A ;
Ekker, SC .
NATURE GENETICS, 2000, 26 (02) :216-220
[109]   Behavioral and Synaptic Circuit Features in a Zebrafish Model of Fragile X Syndrome [J].
Ng, Ming-Chong ;
Yang, Yi-Ling ;
Lu, Kwok-Tung .
PLOS ONE, 2013, 8 (03)
[110]   Toward developmental models of psychiatric disorders in zebrafish [J].
Norton, William H. J. .
FRONTIERS IN NEURAL CIRCUITS, 2013, 7
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