Disease Models & Mechanisms (Nov 2012)

Identification of compounds with anti-convulsant properties in a zebrafish model of epileptic seizures

  • Sarah Baxendale,
  • Celia J. Holdsworth,
  • Paola L. Meza Santoscoy,
  • Michael R. M. Harrison,
  • James Fox,
  • Caroline A. Parkin,
  • Philip W. Ingham,
  • Vincent T. Cunliffe

DOI
https://doi.org/10.1242/dmm.010090
Journal volume & issue
Vol. 5, no. 6
pp. 773 – 784

Abstract

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SUMMARY The availability of animal models of epileptic seizures provides opportunities to identify novel anticonvulsants for the treatment of people with epilepsy. We found that exposure of 2-day-old zebrafish embryos to the convulsant agent pentylenetetrazole (PTZ) rapidly induces the expression of synaptic-activity-regulated genes in the CNS, and elicited vigorous episodes of calcium (Ca2+) flux in muscle cells as well as intense locomotor activity. We then screened a library of ∼2000 known bioactive small molecules and identified 46 compounds that suppressed PTZ-inducedtranscription of the synaptic-activity-regulated gene fos in 2-day-old (2 dpf) zebrafish embryos. Further analysis of a subset of these compounds, which included compounds with known and newly identified anticonvulsant properties, revealed that they exhibited concentration-dependent inhibition of both locomotor activity and PTZ-induced fos transcription, confirming their anticonvulsant characteristics. We conclude that this in situ hybridisation assay for fos transcription in the zebrafish embryonic CNS is a robust, high-throughput in vivo indicator of the neural response to convulsant treatment and lends itself well to chemical screening applications. Moreover, our results demonstrate that suppression of PTZ-induced fos expression provides a sensitive means of identifying compounds with anticonvulsant activities.