Ultrasensitive Detection of Lipid-Induced Misfolding of the Prion Protein at the Aqueous-Liquid Crystal Interface.
Tarang GuptaLisha AroraSamrat MukhopadhyaySantanu Kumar PalPublished in: The journal of physical chemistry letters (2024)
The misfolding of the α-helical cellular prion protein into a self-propagating β-rich aggregated form is a key pathogenic event in fatal and transmissible neurodegenerative diseases collectively known as prion diseases. Herein, we utilize the interfacial properties of liquid crystals (LCs) to monitor the lipid-membrane-induced conformational switching of prion protein (PrP) into β-rich amyloid fibrils. The lipid-induced conformational switching resulting in aggregation occurs at the nanomolar protein concentration and is primarily mediated by electrostatic interactions between PrP and lipid headgroups. Our LC-based methodology offers a potent and sensitive tool to detect and delineate molecular mechanisms of PrP misfolding mediated by lipid-protein interactions at the aqueous interface under physiological conditions.
Keyphrases
- protein protein
- molecular dynamics simulations
- high glucose
- diabetic rats
- fatty acid
- amino acid
- ionic liquid
- molecular dynamics
- drug induced
- oxidative stress
- platelet rich plasma
- gold nanoparticles
- mass spectrometry
- quantum dots
- high resolution
- simultaneous determination
- endothelial cells
- label free
- liquid chromatography
- high resolution mass spectrometry