Pretreatment with 4-methylumbilliferon improves anxiety-like behaviors and memory impairment in stressed rats via modulation of neuronal cell death and oxidative stress

Abstract

This work was done to investigate the ameliorating impact of 4-methylumbilliferon (4-MU) on spatial learning and memory dysfunction and restraint stress (STR)-induced anxiety-like behaviors in male Wistar rats and the underlying mechanisms. Thirty-two animals were assigned into 4 cohorts: control, 4-MU, STR, and STR+4-MU. Animals were exposed to STR for 4 h per day for 14 consecutive days or kept in normal conditions (healthy animals without exposure to stress). 4-MU (25 mg/kg) was intraperitoneally administered once daily to STR rats before restraint stress for 14 consecutive days. The behavioral tests were performed through Morris water maze tests and elevated-plus maze to examine learning/memory function, and anxiety levels, respectively. The levels of the antioxidant defense biomarkers (GPX, SOD) and MDA as an oxidant molecule in the brain tissues were measured using commercial ELISA kits. Neuronal loss or density of neurons was evaluated using Nissl staining. STR exposure could cause significant alterations in the levels of the antioxidant defense biomarkers (MDA, GPX, and SOD) in the prefrontal cortex and hippocampus, induce anxiety, and impair spatial learning and memory function. Treatment with 4-MU markedly reduced anxiety levels and improved spatial learning and memory dysfunction via restoring the antioxidant defense biomarkers to normal values and reducing MDA levels. Moreover, more intact cells with normal morphologies were detected in STR-induced animals treated with 4-MU. 4-MU could attenuate the STR-induced anxiety-like behaviors and spatial learning and memory dysfunction by reducing oxidative damage and neuronal loss in the prefrontal cortex and hippocampus region. Taken together, our findings provide new insights regarding the potential therapeutic effects of 4-MU against neurobehavioral disorders induced by STR.