Small-Angle Neutron Scattering for Studying Lipid Bilayer Membranes

Heller, William T.

doi:10.3390/biom12111591

Cited by 5 publications

(7 citation statements)

References 265 publications

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“…It is expected that quantitative results depend on the choice of these parameters, but the qualitative impact of hydrophobicity and spatial dependence of diffusion on molecular transport does not change once the values of

and h have been fixed. We note that, for any system of interest, these parameters can be obtained directly from experiments such as small-angle X-ray or neutron scattering; particularly, a can be obtained by analyzing the peak positions of the scattering profiles [ 17 ], while l and

correspond to half the thickness of the bilayer and of its hydrophobic part, respectively, which can be computed by suitably fitting the scattering profiles [ 67 ] or by employing geometric arguments based on the known composition of the system [ 1 ].…”

Section: Resultsmentioning

confidence: 99%

Interplay of Hydropathy and Heterogeneous Diffusion in the Molecular Transport within Lamellar Lipid Mesophases

Bosch

Assenza

2023

Pharmaceutics

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Lipid mesophases are being intensively studied as potential candidates for drug-delivery purposes. Extensive experimental characterization has unveiled a wide palette of release features depending on the nature of the host lipids and of the guest molecule, as well as on the environmental conditions. However, only a few simulation works have addressed the matter, which hampers a solid rationalization of the richness of outcomes observed in experiments. Particularly, to date, there are no theoretical works addressing the impact of hydropathy on the transport of a molecule within lipid mesophases, despite the significant fraction of hydrophobic molecules among currently-available drugs. Similarly, the high heterogeneity of water mobility in the nanoscopic channels within lipid mesophases has also been neglected. To fill this gap, we introduce here a minimal model to account for these features in a lamellar geometry, and systematically study the role played by hydropathy and water–mobility heterogeneity by Brownian-dynamics simulations. We unveil a fine interplay between the presence of free-energy barriers, the affinity of the drug for the lipids, and the reduced mobility of water in determining the net molecular transport. More in general, our work is an instance of how multiscale simulations can be fruitfully employed to assist experiments in release systems based on lipid mesophases.

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Section: Resultsmentioning

confidence: 99%

Interplay of Hydropathy and Heterogeneous Diffusion in the Molecular Transport within Lamellar Lipid Mesophases

Bosch

Assenza

2023

Pharmaceutics

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“…The total thickness of the bilayer is 3.6 Å thinner at 55 °C than it is at 30 °C. The total number of water molecules found to be associated with the lipid headgroups, per the self-consistent slab model, − described in Section , is also presented in the table.…”

Section: Resultsmentioning

confidence: 99%

“…The right image shows a zoomed-in view of the top of the vesicle that better presents the differences in A L and leaflet thicknesses of the inner and outer leaflets. The image was rendered using Persistence of Vision Raytracer software from an input file produced by software written for the generation of this kind of vesicle schematic that has been used previously. , The software was modified to show the differences in the structures of the inner and outer leaflets.…”

Section: Resultsmentioning

confidence: 99%

“…The present results provide new information about the structure of the lipid bilayer vesicles made of a 7:3 molar mixture of DMPC and DMPE and how it depends on the temperature. The use of deuterium-labeled DMPC made it possible to observe differences in the structures of the two leaflets of the bialyer. , The A L of the lipids in the inner leaflet of the bilayer displays a stronger temperature dependence than that of the outer one. The SANS results also revealed considerable asymmetry in the composition of the inner and outer leaflets of the bilayer, which Figure highlights clearly.…”

Section: Discussionmentioning

confidence: 99%

“…SANS data were fit using the 4-shell core–shell model that has been employed previously by this group for modeling lipid bilayer mixtures containing one species of deuterium-labeled lipid. , However, the model was modified to be a self-consistent slab model − that employed the sample composition and known physical parameters for the lipids. The model is described in detail below.…”

Section: Methodsmentioning

confidence: 99%

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Small-Angle Neutron Scattering Study of a Phosphatidylcholine–Phosphatidylethanolamine Mixture

Heller

2023

ACS Omega

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The properties of single-component phospholipid lipid bilayers have been extensively characterized. Natural cell membranes are not so simple, consisting of a diverse mixture of lipids and proteins. While having detailed structural information on complex membranes would be useful for understanding their structure and function, experimentally characterizing such membranes at a level of detail applied to model phospholipid bilayers is challenging. Here, small-angle neutron scattering with selective deuteration was used to characterize a binary lipid mixture composed of 1,2-dimyristoyl-3-sn-glycero-phosphatidylcholine and 1,2-dimyristoyl-3-sn-glycero-phosphatidylethanolamine. The data analysis provided the area per lipid in each leaflet as well as the asymmetry of the composition of the inner and outer leaflets of the bilayer. The results provide new insight into the structure of the lipid bilayer when this lipid mixture is used to prepare vesicles.

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Cationic Proteins Rich in Lysine Residue Trigger Formation of Non-bilayer Lipid Phases in Model and Biological Membranes: Biophysical Methods of Study

Li,

Gasanoff

2023

J Membrane Biol

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Small-Angle Neutron Scattering for Studying Lipid Bilayer Membranes

Cited by 5 publications

References 265 publications

Interplay of Hydropathy and Heterogeneous Diffusion in the Molecular Transport within Lamellar Lipid Mesophases

Interplay of Hydropathy and Heterogeneous Diffusion in the Molecular Transport within Lamellar Lipid Mesophases

Small-Angle Neutron Scattering Study of a Phosphatidylcholine–Phosphatidylethanolamine Mixture

Cationic Proteins Rich in Lysine Residue Trigger Formation of Non-bilayer Lipid Phases in Model and Biological Membranes: Biophysical Methods of Study

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