Anxiety-like behaviors in rats exposed to the single and combined program of running exercise and environmental enrichment.

Exercise (Ex) and environmental enrichment (EE) as the nondrug solutions have positive effects on cognitive behaviors and also increase the ability to cope with anxiety, fear, and stress. In this research, we decided to investigate the simultaneous effect of Ex and EE on anxiety-like behaviors and hippocampal neurogenesis markers in healthy rats. A total of 40 male Wistar rats were divided into four treatment groups: control, EE, Ex, and EE + Ex. Animals in EE groups were housed in large cages (50 × 50 × 50 cm) equipped with toys and objects of different shapes for 3 weeks. Ex-animals were forced to run on a treadmill once a day for 3 consecutive weeks. Open field (OF) and elevated plus maze (EPM) tests were used to evaluate anxiety behaviors. The hippocampal expression of early neurogenesis markers, doublecortin, and sex determining region Y-box 2, were measured using real-time-PCR. Ex and EE animals separately did not show any significant performance in reducing anxiety levels, neither in EPM nor in OF compared with the control group. When animals were treated with EE and Ex simultaneously, they showed significantly reduced anxiety in both EPM and OF tests compared with the control as well as Ex and EE groups separately. Both treatments in combination were also more effective than individual groups in increasing the neurogenesis molecular markers within the hippocampus. This study proposes that Ex in combination with cognitive engagement is more efficient in alleviating anxiety responses and that can develop a nonpharmacological and multidomain policy that may prevent or delay psychophysiological symptoms.