1A). Increased miR-146a expression was also observed in human TLE HS specimens compared with control hippocampus (Fig. 1B). In both rat and human tissue the miR-146a expression was normalized to that of the U6B small nuclear RNA gene (rnu6b). To determine the temporal–spatial expression and cellular distribution of miR-146a, we performed in situ hybridization using LNA- and 2′OMe RNA-modified oligonucleotides in tissue samples of control rats and rats that were killed at different time points after SE (1 day, 1 week and 3–4 months post-SE). In control

hippocampus miR-146a was confined to neuronal cells, including pyramidal cells of CA1 and CA3 regions, as well as granule cells GW572016 and hilar neurons of the DG (Fig. 2A, C, E and G). No detectable staining was observed in resting glial cells. At 1 day post-SE, miR-146a showed a similar pattern as control hippocampus, with predominant neuronal staining; occasionally expression was observed in

cells with glial appearance in the areas of neuronal damage (CA1, CA3, hilus; not shown). At 1 week post-SE (Fig. 2B, D, F and H–J), prominent upregulation of miR-146a expression Temozolomide purchase was detected within the different hippocampal regions in glial cells. Strong and diffuse glial miR-146a expression was particularly observed in the inner molecular layer of the DG and in the hilar region (Fig. 2I). Pyramidal neurons of CA1 and CA3 regions and granule cells of DG also displayed strong miR-146a expression. In the chronic phase (3–4 months post-SE) the hippocampus showed a pattern similar to that observed at 1 week post-SE, with both neuronal and glial expression, which was mainly localized in regions of prominent gliosis, such as the hilar region (Fig. 2J). Co-localization studies indicated that miR-146a was induced in glial cells in this region and that expression was confined to astrocytes, whereas no detectable expression was observed in lectin-positive cells of the microglial/macrophage lineage (Fig. 2J and inserts a/b). The percentage of cells

positive for miR-146a and co-expressing GFAP was quantified in both CA3 and DG at 1 week post SE (76 ± 2, CA3; 70 ± 4, Niclosamide DG). No co-localization with lectin was observed in both regions. The cellular distribution of miR-146a in human hippocampus was investigated using in situ hybridization. Differences in the expression level, as well as in the cell-specific distribution, were found in specimens from patients with HS (Fig. 3). In control hippocampus, we observed miR-146a expression in neuronal cells, including pyramidal cells of CA1 and CA3 regions, as well as granule cells and hilar neurons of the DG (Fig. 3A, C and E). No detectable staining was observed in resting glial cells. In all the HS specimens examined, miR-146a expression was increased in the different subfields of the hippocampus; abundant miR-146a-positive glial cells with typical astroglia morphology were observed in the areas of prominent gliosis (Fig. 3B, D and F).