Zebrafish knockout of Down syndrome gene, DYRK1A, shows social impairments relevant to autism

Oc Hee Kim, Hyun Ju Cho, Enna Han, Ted Inpyo Hong, Krishan Ariyasiri, Jung Hwa Choi, Kyu Seok Hwang, Yun Mi Jeong, Se Yeol Yang, Kweon Yu, Doo Sang Park, Hyun Woo Oh, Erica Ellen Davis, Charles E. Schwartz, Jeong Soo Lee*, Hyung Goo Kim, Cheol Hee Kim

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

59 Scopus citations


Background: DYRK1A maps to the Down syndrome critical region at 21q22. Mutations in this kinase-encoding gene have been reported to cause microcephaly associated with either intellectual disability or autism in humans. Intellectual disability accompanied by microcephaly was recapitulated in a murine model by overexpressing Dyrk1a which mimicked Down syndrome phenotypes. However, given embryonic lethality in homozygous knockout (KO) mice, no murine model studies could present sufficient evidence to link Dyrk1a dysfunction with autism. To understand the molecular mechanisms underlying microcephaly and autism spectrum disorders (ASD), we established an in vivo dyrk1aa KO model using zebrafish. Methods: We identified a patient with a mutation in the DYRK1A gene using microarray analysis. Circumventing the barrier of murine model studies, we generated a dyrk1aa KO zebrafish using transcription activator-like effector nuclease (TALEN)-mediated genome editing. For social behavioral tests, we have established a social interaction test, shoaling assay, and group behavior assay. For molecular analysis, we examined the neuronal activity in specific brain regions of dyrk1aa KO zebrafish through in situ hybridization with various probes including c-fos and crh which are the molecular markers for stress response. Results: Microarray detected an intragenic microdeletion of DYRK1A in an individual with microcephaly and autism. From behavioral tests of social interaction and group behavior, dyrk1aa KO zebrafish exhibited social impairments that reproduce human phenotypes of autism in a vertebrate animal model. Social impairment in dyrk1aa KO zebrafish was further confirmed by molecular analysis of c-fos and crh expression. Transcriptional expression of c-fos and crh was lower than that of wild type fish in specific hypothalamic regions, suggesting that KO fish brains are less activated by social context. Conclusions: In this study, we established a zebrafish model to validate a candidate gene for autism in a vertebrate animal. These results illustrate the functional deficiency of DYRK1A as an underlying disease mechanism for autism. We also propose simple social behavioral assays as a tool for the broader study of autism candidate genes.

Original languageEnglish (US)
Article number168
JournalMolecular Autism
Issue number1
StatePublished - Sep 29 2017


  • Autism
  • DYRK1A
  • Down syndrome
  • Group behavior
  • Knockout
  • Shoaling
  • Social interaction
  • Zebrafish

ASJC Scopus subject areas

  • Psychiatry and Mental health
  • Molecular Biology
  • Developmental Neuroscience
  • Developmental Biology


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