Withania somnifera and Centella asiatica Extracts Ameliorate Behavioral Deficits in an In Vivo Drosophila melanogaster Model of Oxidative Stress

Kadine Cabey,Doris Kretzschmar,Christine Mcclure,Amala Soumyanath,Maya Caruso,Alexander Law,Parnian Lak,Jan F Stevens,Kirsten M Wright,Dani M Long,Nora E Gray,Claudia S Maier

doi:10.3390/antiox11010121

Abstract

Due to an increase in the aging population, age-related diseases and age-related changes, such as diminished cognition and sleep disturbances, are an increasing health threat. It has been suggested that an increase in oxidative stress underlies many of these changes. Current treatments for these diseases and changes either have low efficacy or have deleterious side effects preventing long-time use. Therefore, alternative treatments that promote healthy aging and provide resilience against these health threats are needed. The herbs Withania somnifera and Centella asiatica may be two such alternatives because both have been connected with reducing oxidative stress and could therefore ameliorate age-related impairments. To test the effects of these herbs on behavioral phenotypes induced by oxidative stress, we used the Drosophila melanogaster sniffer mutant which has high levels of oxidative stress due to reduced carbonyl reductase activity. Effects on cognition and mobility were assessed using phototaxis assays and both, W. somnifera and C. asiatica water extracts improved phototaxis in sniffer mutants. In addition, W. somnifera improved nighttime sleep in male and female sniffer flies and promoted a less fragmented sleep pattern in male sniffer flies. This suggests that W. somnifera and C. asiatica can ameliorate oxidative stress-related changes in behavior and that by doing so they might promote healthy aging in humans.

Highlights

As mentioned in the introduction, we aimed to test whether anti-oxidative effects mediated by W. somnifera and C. asiatica ameliorate behavioral deficits in a Drosophila model
We previously showed that treatment with our C. asiatica water extract increased the expression of mitochondrial and antioxidant response genes in mice and hippocampal neurons exposed to beta amyloid (Aβ)
This included an increase in nuclear factor erythroidderived 2 (NRF2), a key factor in regulating the response to oxidative stress by inducing the expression of several genes involved in mitigating oxidative stress [42,43,44]

Summary

Introduction

Throughout the world, many countries are experiencing population aging, a phenomenon where the portion of older persons in a population increases while that of younger persons decreases [1]. Reports from the United Nations [1] and the United States Census Bureau [2] predict that the number of persons aged 60–65 years or older globally will increase to 1.6–2 billion persons in 2050 and 2.4 billion persons in 2100. Population ageing is thought to be due mainly to a decline in fertility rate and increase in longevity [1,2]. Among the concerns associated with an increase in population aging is the prevalence of age-related

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