Withanolide-A Accelerates Re-entrainment of Circadian Locomotor Activity Rhythm and Preserves Spatial Memory in Mice Following Acute Phase Inversion of Light-Dark Cycles

Abstract

Objective: Circadian rhythms are present almost in all living organisms and synchronized with the zeitgebers (time givers), especially lightdark (LD) cycles. The jetlag and rotating shift work schedules lead to desynchronization of the circadian clock with zeitgebers which may cause various health problems. Studies have shown that withanolide-A (WA) is a potent nootropic and neuroprotective agent found in Withania somnifera. Thus, the objective was to study the effect of WA on the circadian locomotor activity rhythm following the phase inversion of 12:12 h LD cycle in mice and its impact on the spatial memory in mice.Methods: Adult male mice were housed in the chronocubicle and recorded circadian locomotor activity rhythm by using ClockLab setup. The experimental mice were administered with WA (10 μmol/kg/day) for 13 consecutive days at about ZT15 and then evoked an acute phase inversion of 12:12 h light-dark cycle. Further, the Barnes maze test was performed to check the effect of WA on spatial memory following the phase inversion.Results: The results showed that WA-treated group took significantly fewer transient cycles (4.66+0.66) for re-entrainment than the control (9.5+0.43) and vehicle-treated (8.33+1.28) mice following the phase inversion. Similarly, WA-treated mice traveled less distance to reach the target zone in the Barnes maze compared to vehicle and control groups.Conclusion: These results suggest that the WA may act as chronobiotic and neuroprotective agent since it decreased the transient cycles for re-entrainment and retaining spatial memory following the phase inversion.