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Role of Cholesterol in Interaction of Ionic Liquids with Model Lipid Membranes and Associated Permeability.

Sandeep KumarNavleen KaurPrashant HitaishiSajal Kumar GhoshVenus Singh MithuHolger A Scheidt
Published in: The journal of physical chemistry. B (2024)
In this work, we explored how the amount of cholesterol in the lipid membrane composed of phosphatidylcholine (POPC) or phosphatidylglycerol (POPG) affects the interaction with 1-dodecyl-3-methylimidazolium bromide ([C 12 MIM] + Br - ) ionic liquids using various biophysical techniques. On interacting with the membrane, [C 12 MIM] + Br - leads to enhanced membrane permeability and induces membrane fusion, leading to an increase in vesicle size. The 2 H-based solid-state NMR investigations of cholesterol-containing lipid membranes reveal that [C 12 MIM] + Br - decreases the lipid chain order parameters and counteracts the lipid condensation effect of cholesterol to some extent. Therefore, as the amount of cholesterol in the membrane increases, the membrane effect of [C 12 MIM] + Br - decreases. The effect of [C 12 MIM] + Br - on the membrane properties is more pronounced for POPC compared to that of POPG membranes. This suggests a dependence of these effects on the electrostatic interactions, indicating that the influence of [C 12 MIM] + Br - varies based on the lipid composition. The findings suggest that the presence of cholesterol can modulate the effect of [C 12 MIM] + Br - on membrane properties, with variations observed between POPC and POPG membranes, highlighting the importance of lipid composition. In short, this study provides insights into the intricate interplay between cholesterol, the lipid membrane, and the ionic liquid [C 12 MIM] + Br - .
Keyphrases
  • ionic liquid
  • low density lipoprotein
  • fatty acid
  • room temperature
  • solid state
  • gene expression
  • endothelial cells
  • genome wide
  • protein kinase