Linalool Alleviates Aβ42-Induced Neurodegeneration via Suppressing ROS Production and Inflammation in Fly and Rat Models of Alzheimer's Disease.
Chunyu YuanMyeongcheol ShinYoungjae ParkByoungyun ChoiSeokhui JangChaejin LimHye Sup YunIm-Soon LeeSo-Yoon WonKyoung Sang ChoPublished in: Oxidative medicine and cellular longevity (2021)
Terpenes are vital metabolites found in various plants and animals and known to be beneficial in the treatment of various diseases. Previously, our group identified terpenes that increased the survival of Alzheimer's disease (AD) model flies expressing human amyloid β (Aβ) and identified linalool as a neuroprotective terpene against Aβ toxicity. Linalool is a monoterpene that is commonly present as a constituent in essential oils from aromatic plants and is known to have anti-inflammatory, anticancer, antihyperlipidemia, antibacterial, and neuroprotective properties. Although several studies have shown the beneficial effect of linalool in AD animal models, the mechanisms underlying the beneficial effect of linalool on AD are yet to be elucidated. In the present study, we showed that linalool intake increased the survival of the AD model flies during development in a dose-dependent manner, while the survival of wild-type flies was not affected even at high linalool concentrations. Linalool also decreases Aβ-induced apoptosis in eye discs as well as the larval brain. Moreover, linalool intake was found to reduce neurodegeneration in the brain of adult AD model flies. However, linalool did not affect the total amount of Aβ42 protein or Aβ42 aggregation. Rather, linalool decreased Aβ-induced ROS levels, oxidative stress, and inflammatory response in the brains of AD model flies. Furthermore, linalool attenuated the induction of oxidative stress and gliosis by Aβ 1-42 treatment in the rat hippocampus. Taken together, our data suggest that linalool exerts its beneficial effects on AD by reducing Aβ42-induced oxidative stress and inflammatory reactions.
Keyphrases
- oxidative stress
- induced apoptosis
- diabetic rats
- dna damage
- inflammatory response
- drosophila melanogaster
- cerebral ischemia
- endothelial cells
- nitric oxide
- small molecule
- resting state
- wild type
- brain injury
- cognitive decline
- toll like receptor
- machine learning
- hydrogen peroxide
- subarachnoid hemorrhage
- mouse model
- blood brain barrier
- functional connectivity
- deep learning