Bacopaside-I ameliorates motor dysfunction and neurodegeneration in rat model of Parkinson's disease.

Abstract

Chronic administration of Bacopa monnieri extract exerts neuroprotective potential in multiple animal models of neurodegenerative disorders such as Parkinson's disease (PD), Alzheimer's disease (AD), depression, and other cognitive impairments. However, the underlying mechanism of action remained unclear. Rotenone model of PD holds a great potential for investigating PD pathology and motor and nonmotor symptoms. Herein, we evaluated the neuroprotective effect of Bacopaside-I (BS-I), a major triterpenoid saponin of Bacopa monnieri extract, against rotenone-induced in vivo model of PD and explored the possible molecular mechanism. Rats were exposed to rotenone (2 mg/kg body weight) for a period of 4 consecutive weeks to induce PD-like behavior. BS-I (5, 15, and 45 mg/kg) was administered orally. Behavioral data (rotarod, foot printing, and grip strength test) suggest that BS-I plays a significant role in attenuating the motor function deficit. Exposure to rotenone reduces the dopamine level and increases oxidative stress, while BS-I treatment reversed these changes. Furthermore, chronic administration of BS-I increased the expression levels of dopamine transporter (DAT) and vesicular monoamine transporter (VMAT) genes and the numbers of tyrosine hydroxylase (TH)-positive neurons as compared to rotenone-exposed animals. Our study established the neuroprotective role of BS-I in PD model and laid the foundation for further evaluation of BS-I-based drug in future studies.