A dual-functional nanoplatform for the tracking of formaldehyde and neuroprotection in Parkinson's disease
Key Points
This research aims to develop a nanoplatform that can detect formaldehyde and provide neuroprotection in models of Parkinson's disease.
A dual-functional nanoplatform (Res-W NPs) was created with a fluorescent probe W-2 and resveratrol.
The platform was tested in Parkinson's disease models to assess its ability to track formaldehyde and prevent cell damage caused by rotenone.
The nanoplatform successfully tracked formaldehyde levels in Parkinson's disease models.
Significant prevention of morphological damage to cells was observed when using the nanoplatform against rotenone exposure.
Abstract
A nanoplatform (Res-W NPs) is prepared by using the FA-activatable fluorescent probe W-2 and resveratrol. It can track FA in PD models and prevent morphological damage to cells caused by rotenone.