Taurine Reverses Arsenic-Induced Inhibition of Hippocampal Neurogenesis and Depression-Like Behavior in Mice

Arsenic exposure results in damage to the neurological system. We previously demonstrated the arsenic-induced inhibition of hippocampal neurogenesis and its reversibility after exposure is terminated. The present study aimed to reveal whether arsenic-induced inhibition of hippocampal neurogenesis was ameliorated when taurine was co-administered, and we also investigated depression-like behavioral changes using the forced swim test. Mice were randomly divided into four groups. The first group received distilled water only for 4 months (control group), the second group received 4.0 mg/L As2O3 via drinking water for 4 months (arsenic group), the third group received 4.0 mg/L As2O3 and taurine (150 mg/kg body weight, by gavage, twice a week) for 4 months (arsenic + taurine group), and the fourth group received taurine only by gavage for 4 months (taurine group). The percentage of new mature neurons decreased in the arsenic group compared with the control group (64% +/- 0.90% vs. 76% +/- 1.9%, p < 0.01); however, this percentage was reversed to control levels in the arsenic + taurine group (76% +/- 1.4%, p > 0.05). In the forced swim test, the immobility time during the last 4 min was significantly increased in the arsenic group, but restored to control levels in the arsenic + taurine group. The possible mechanisms of this taurine amelioration of hippocampal damage were further investigated, and included a reduction in oxidative stress as indicated by carbonyl content, inflammation, and aquaporin1, 4, and 8 expressions, as well as an increase in Wnt3a and brain-derived neurotrophic factor expression in western blot analyses.