Characterization of phospholipid-cholesterol bilayers as self-assembled amphiphile block polymers that contain headgroups.

Authors

Xiaoyuan Wang, Fredric S Cohen, Shixin Xu, Yongqiang Cai

Published in

ArXiv. May 20, 2025. Epub May 20, 2025.

Abstract

Cholesterol is known to modulate the structure and function of biological membranes. In this study, we use self-consistent field theory (SCFT) to investigate phospholipid/cholesterol bilayer membranes modeled with two types of diblock copolymers. These copolymer-based bilayers serve as biomimetic platforms with applications in areas such as drug delivery. Our simulations identify a minimum free energy configuration characterized by phospholipid tails tilted relative to the membrane normal. The model quantitatively captures the well-known area condensation effect as cholesterol concentration increases, along with membrane thickening and reduced tilt angle. Thermodynamically, we observe a linear dependence between cholesterol's chemical potential and its concentration within the 37-50% range, consistent with experimental results. Additionally, we analyze the effects of block copolymer length and headgroup interactions on bilayer structure. Interactions between phospholipid headgroups and the solvent emerge as the most influential. This work provides a theoretical framework for understanding cholesterol's regulatory role in membrane structure and mechanics.

PMID:
40470473
Bibliographic data and abstract were imported from PubMed on 05 Jun 2025.

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