Scribed [4] using the following reagents: mouse anti-BrdU (Roche, Indianapolis, IN); rabbit anti-Ki67 (recognizing nuclear antigen expressed during all proliferative stages of the cell cycle except G0 [21], Novocastra, UK); guinea pig anti- doublecortin (DCX) (recognizing immature neurons [22], Santa Cruz Biotechnology, CA), ABC solution (Vector laboratories, Burlingame, CA).Cell CountingFor BrdU, Ki67 and DCX Immunohistochemistry, every ninth coronal CP21 biological activity section spanning the septal hippocampus was collected. Five coronal sections were collected from each animal by starting 4.0 mm posterior to Bregma, and collecting every ninth section until 5 sections were in hand. These sections were then coded and given to a blinded experimenter who counted the number of BrdU, Ki67 and DCX -immunopositive cells in the SGZ and granule cell layer (GCL).Immunohistochemistry StainingRats were anesthetized with urethane and then transcardially perfused by 4 paraformaldehyde (PFA) in 0.1M phosphate buffer (PB, pH 7.4). The brains were removed post-fixed forZinc and Hippocampal MedChemExpress ITI 007 Neurogenesis after SeizureFigure 6. Clioquinol reduced the number of DCX-labeled cells in the dentate gyrus. The neuroblast marker, doublecortin (DCX), is upregulated in the dentate gyrus of rats after seizure. (A) Brains were harvested at 1 week after seizure and then brain sections were immunohistochemically stained with DCX. DCX (+) cells were significantly higher in seizure-induced rats than in the sham operated rats. DCX was reduced by CQ in the dentate gyrus at 1 week after seizure. In the sham operation, DCX (+) cells were also reduced by CQ. Scale bar = 200 mm. (B) Bar graph represents number of DCX-immunoreactive cell in the subgranular zone of DG (n = 8). Data are means 6 SE. *P,0.05. doi:10.1371/journal.pone.0048543.gStatistical AnalysisAll data were expressed as means 6 SE. The statistical significance of differences between means was calculated using SPSS (SPSS Inc, Chicago, IL). For statistical comparisons between data from normal and from zinc chelator treated rats in BrdU, Ki67 and DCX positive cells, significance was determined using one-way ANOVA followed by Bonferroni post hoc test. For statistical comparisons between data from all other experiments, significance was evaluated by two-tailed Student 1317923 t-test. P values ,0.05 were considered significant.detected in the hippocampal CA1, CA3, hilus and subiculum area in the vehicle treated rats 1 week after seizure (Fig. 1). Surviving neurons were evaluated by NeuN staining 1 week after seizure. NeuN (+) neurons disappeared in the hippocampal CA1, CA3 and hilus in vehicle treated rats at this time point. Compared with vehicle-treated rats, CQ-treated rat showed a similar number of NeuN (+) neurons in the hippocampal CA1, CA3, hilus and subiculum area, suggesting neuronal death is not prevented by CQ (Fig. 2).Results Seizure-induced Hippocampal Neuronal Death is not Prevented by CQTo test whether CQ treatment shows neuroprotective effects after pilocarpine-induced seizure, rats were sacrificed 1 week after insult with or without CQ injection. Neuronal injury was evaluated by FJB staining. Widespread FJB (+) neurons wereCQ Decreased Hippocampal Vesicular Zinc Level in Normal or after Pilocarpine-induced SeizureTo test whether CQ treatment decreases vesicular zinc intensity in the mossy fiber of hippocampus, brain sections were stained by TSQ. Consistent with previous observations [5,23], the intensity of mossy fiber zinc in th.Scribed [4] using the following reagents: mouse anti-BrdU (Roche, Indianapolis, IN); rabbit anti-Ki67 (recognizing nuclear antigen expressed during all proliferative stages of the cell cycle except G0 [21], Novocastra, UK); guinea pig anti- doublecortin (DCX) (recognizing immature neurons [22], Santa Cruz Biotechnology, CA), ABC solution (Vector laboratories, Burlingame, CA).Cell CountingFor BrdU, Ki67 and DCX Immunohistochemistry, every ninth coronal section spanning the septal hippocampus was collected. Five coronal sections were collected from each animal by starting 4.0 mm posterior to Bregma, and collecting every ninth section until 5 sections were in hand. These sections were then coded and given to a blinded experimenter who counted the number of BrdU, Ki67 and DCX -immunopositive cells in the SGZ and granule cell layer (GCL).Immunohistochemistry StainingRats were anesthetized with urethane and then transcardially perfused by 4 paraformaldehyde (PFA) in 0.1M phosphate buffer (PB, pH 7.4). The brains were removed post-fixed forZinc and Hippocampal Neurogenesis after SeizureFigure 6. Clioquinol reduced the number of DCX-labeled cells in the dentate gyrus. The neuroblast marker, doublecortin (DCX), is upregulated in the dentate gyrus of rats after seizure. (A) Brains were harvested at 1 week after seizure and then brain sections were immunohistochemically stained with DCX. DCX (+) cells were significantly higher in seizure-induced rats than in the sham operated rats. DCX was reduced by CQ in the dentate gyrus at 1 week after seizure. In the sham operation, DCX (+) cells were also reduced by CQ. Scale bar = 200 mm. (B) Bar graph represents number of DCX-immunoreactive cell in the subgranular zone of DG (n = 8). Data are means 6 SE. *P,0.05. doi:10.1371/journal.pone.0048543.gStatistical AnalysisAll data were expressed as means 6 SE. The statistical significance of differences between means was calculated using SPSS (SPSS Inc, Chicago, IL). For statistical comparisons between data from normal and from zinc chelator treated rats in BrdU, Ki67 and DCX positive cells, significance was determined using one-way ANOVA followed by Bonferroni post hoc test. For statistical comparisons between data from all other experiments, significance was evaluated by two-tailed Student 1317923 t-test. P values ,0.05 were considered significant.detected in the hippocampal CA1, CA3, hilus and subiculum area in the vehicle treated rats 1 week after seizure (Fig. 1). Surviving neurons were evaluated by NeuN staining 1 week after seizure. NeuN (+) neurons disappeared in the hippocampal CA1, CA3 and hilus in vehicle treated rats at this time point. Compared with vehicle-treated rats, CQ-treated rat showed a similar number of NeuN (+) neurons in the hippocampal CA1, CA3, hilus and subiculum area, suggesting neuronal death is not prevented by CQ (Fig. 2).Results Seizure-induced Hippocampal Neuronal Death is not Prevented by CQTo test whether CQ treatment shows neuroprotective effects after pilocarpine-induced seizure, rats were sacrificed 1 week after insult with or without CQ injection. Neuronal injury was evaluated by FJB staining. Widespread FJB (+) neurons wereCQ Decreased Hippocampal Vesicular Zinc Level in Normal or after Pilocarpine-induced SeizureTo test whether CQ treatment decreases vesicular zinc intensity in the mossy fiber of hippocampus, brain sections were stained by TSQ. Consistent with previous observations [5,23], the intensity of mossy fiber zinc in th.