PLoS ONE (Jan 2017)

Using Postmortem hippocampi tissue can interfere with differential gene expression analysis of the epileptogenic process.

  • João Paulo Lopes Born,
  • Heloisa de Carvalho Matos,
  • Mykaella Andrade de Araujo,
  • Olagide Wagner Castro,
  • Marcelo Duzzioni,
  • José Eduardo Peixoto-Santos,
  • João Pereira Leite,
  • Norberto Garcia-Cairasco,
  • Maria Luisa Paçó-Larson,
  • Daniel Leite Góes Gitaí

DOI
https://doi.org/10.1371/journal.pone.0182765
Journal volume & issue
Vol. 12, no. 8
p. e0182765

Abstract

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Neuropathological studies often use autopsy brain tissue as controls to evaluate changes in protein or RNA levels in several diseases. In mesial temporal lobe epilepsy (MTLE), several genes are up or down regulated throughout the epileptogenic and chronic stages of the disease. Given that postmortem changes in several gene transcripts could impact the detection of changes in case-control studies, we evaluated the effect of using autopsy specimens with different postmortem intervals (PMI) on differential gene expression of the Pilocarpine (PILO)induced Status Epilepticus (SE) of MTLE. For this, we selected six genes (Gfap, Ppia, Gad65, Gad67, Npy, and Tnf-α) whose expression patterns in the hippocampus of PILO-injected rats are well known. Initially, we compared hippocampal expression of naïve rats whose hippocampi were harvested immediately after death (0h-PMI) with those harvested at 6h postmortem interval (6h-PMI): Npy and Ppia transcripts increased and Tnf-α transcripts decreased in the 6h-PMI group (p<0.05). We then investigated if these PMI-related changes in gene expression have the potential to adulterate or mask RT-qPCR results obtained with PILO-injected rats euthanized at acute or chronic phases. In the acute group, Npy transcript was significantly higher when compared with 0h-PMI rats, whereas Ppia transcript was lower than 6h-PMI group. When we used epileptic rats (chronic group), the RT-qPCR results showed higher Tnf-α only when compared to 6h-PMI group. In conclusion, our study demonstrates that PMI influences gene transcription and can mask changes in gene transcription seen during epileptogenesis in the PILO-SE model. Thus, to avoid erroneous conclusions, we strongly recommend that researchers account for changes in postmortem gene expression in their experimental design.