PLoS ONE (Jan 2015)

Expression Profiling after Prolonged Experimental Febrile Seizures in Mice Suggests Structural Remodeling in the Hippocampus.

  • Bart C Jongbloets,
  • Koen L I van Gassen,
  • Anne A Kan,
  • Anneke H O Olde Engberink,
  • Marina de Wit,
  • Inge G Wolterink-Donselaar,
  • Marian J A Groot Koerkamp,
  • Onno van Nieuwenhuizen,
  • Frank C P Holstege,
  • Pierre N E de Graan

DOI
https://doi.org/10.1371/journal.pone.0145247
Journal volume & issue
Vol. 10, no. 12
p. e0145247

Abstract

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Febrile seizures are the most prevalent type of seizures among children up to 5 years of age (2-4% of Western-European children). Complex febrile seizures are associated with an increased risk to develop temporal lobe epilepsy. To investigate short- and long-term effects of experimental febrile seizures (eFS), we induced eFS in highly febrile convulsion-susceptible C57BL/6J mice at post-natal day 10 by exposure to hyperthermia (HT) and compared them to normotherm-exposed (NT) mice. We detected structural re-organization in the hippocampus 14 days after eFS. To identify molecular candidates, which entrain this structural re-organization, we investigated temporal changes in mRNA expression profiles eFS 1 hour to 56 days after eFS. We identified 931 regulated genes and profiled several candidates using in situ hybridization and histology at 3 and 14 days after eFS. This is the first study to report genome-wide transcriptome analysis after eFS in mice. We identify temporal regulation of multiple processes, such as stress-, immune- and inflammatory responses, glia activation, glutamate-glutamine cycle and myelination. Identification of the short- and long-term changes after eFS is important to elucidate the mechanisms contributing to epileptogenesis.