AI Article Synopsis
- The study explores the coexistence of liquid ordered (L) and liquid disordered (L) lipid phases in vesicles, which are used to simulate the complexity of biological membranes and their associated rafts.
- It highlights that raft-associated proteins tend to only associate with the L phase, suggesting that this is due to the different microscopic structures at varying temperatures.
- The findings indicate that temperature influences lipid structure, which affects protein solvation and necessitates careful consideration of these differences when modeling cellular membranes in synthetic systems.
Article Abstract
Coexisting liquid ordered (L) and liquid disordered (L) lipid phases in synthetic and plasma membrane-derived vesicles are commonly used to model the heterogeneity of biological membranes, including their putative ordered rafts. However, raft-associated proteins exclusively partition to the L and not the L phase in these model systems. We believe that the difference stems from the different microscopic structures of the lipid rafts at physiological temperature and the L phase studied at room temperature. To probe this structural diversity across temperatures, we performed atomistic molecular dynamics simulations, differential scanning calorimetry, and fluorescence spectroscopy on L phase membranes. Our results suggest that raft-associated proteins are excluded from the L phase at room temperature due to the presence of a stiff, hexagonally packed lipid structure. This structure melts upon heating, which could lead to the preferential solvation of proteins by order-preferring lipids. This structural transition is manifested as a subtle crossover in membrane properties; yet, both temperature regimes still fulfill the definition of the L phase. We postulate that in the compositionally complex plasma membrane and in vesicles derived therefrom, both molecular structures can be present depending on the local lipid composition. These structural differences must be taken into account when using synthetic or plasma membrane-derived vesicles as a model for cellular membrane heterogeneity below the physiological temperature.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8842317 | PMC |
| http://dx.doi.org/10.1021/acs.jpclett.1c03712 | DOI Listing |
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