Kalina Hristova scite author profile

The interactive properties of liposomes containing phospholipids with covalently attached poly(ethylene glycol) (PEG-lipids) are of interest because such liposomes are being developed as drug delivery vehicles and also are ideal model systems for measuring the properties of surface-grafted polymers. For bilayers containing PEG-lipids with PEG molecular weights of 350, 750, 2000, and 5000, pressure-distance relations have been measured by X-ray diffraction analysis of liposomes subjected to known applied osmotic pressures. The distance between apposing bilayers decreased monotonically with increasing applied pressure for each concentration of a given PEG-lipid. Although for bilayers containing PEG-350 and PEG-750 the contribution of electrostatic repulsion to interbilayer interactions was significant, for bilayers containing PEG-2000 and PEG-5000 the major repulsive pressure between bilayers was a steric pressure due to the attached PEG. The range and magnitude of this steric pressure increased both with increasing PEG-lipid concentration and PEG size, and the extension length of the PEG from the bilayer surface at maximum PEG-lipid concentration depended strongly on the size of the PEG, being less than 35 A for PEG-750, and about 65 A for PEG-2000 and 115 A for PEG-5000. The measured pressure-distance relations have been modeled in terms of current theories (deGennes, 1987; Milner et al., 1988b) for the steric pressure produced by surface-grafted polymers, as modified by us to take into account the effects of polymer polydispersity and the possibility that, at low grafting densities, polymers from apposing bilayers surfaces can interpenetrate or interdigitate. No one theoretical scheme is sufficient to account for all the experimental results. However, for a given pressure regime, PEG-lipid size, and PEG-lipid surface density, the appropriately modified theoretical treatment gives a reasonable fit to the pressure-distance data.

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Antimicrobial Peptides: Successes, Challenges and Unanswered Questions

Wimley

2011

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Multidrug antibiotic resistance is an increasingly serious public health problem worldwide. Thus, there is a significant and urgent need for the development of new classes of antibiotics that do not induce resistance. To develop such antimicrobial compounds, we must look toward agents with novel mechanisms of action. Membrane permeabilizing antimicrobial peptides (AMPs) are good candidates because they act without high specificity toward a protein target, which reduces the likelihood of induced resistance. Understanding the mechanism of membrane permeabilization is crucial for the development of AMPs into useful anti-microbial agents. Various models, some phenomenological and others more quantitative or semi-molecular, have been proposed to explain the action of antimicrobial peptides. While these models explain many aspects of AMP action, none of the models captures all the experimental observations and significant questions remain unanswered. Here we discuss the state of the field and pose some questions that, if answered, could speed the discovery of clinically useful peptide antibiotics.

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[4] Protein folding in membranes: Determining energetics of peptide-bilayer interactions

White¹,

Wimley²,

Ladokhin³

et al. 1998

269

311

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Kalina Hristova

Range and magnitude of the steric pressure between bilayers containing phospholipids with covalently attached poly(ethylene glycol)

Antimicrobial Peptides: Successes, Challenges and Unanswered Questions

[4] Protein folding in membranes: Determining energetics of peptide-bilayer interactions

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