Ehsan Suleiman scite author profile

Since the first use of liposomes as carriers for antigens, much work has been done to elucidate the mechanisms involved in the encapsulation of vaccine-relevant biomolecules. However, only a few studies have specifically investigated the encapsulation of hydrophilic, non-conformational peptide epitopes. We performed comprehensive and systematic screening studies, in order to identify conditions that favor the electrostatic interaction of such peptides with lipid membranes. Moreover, we have explored bi-terminal sequence extension as an approach to modify the isoelectric point of peptides, in order to modulate their membrane binding behavior and eventually shift/expand the working range under which they can be efficiently encapsulated in an electrostatically driven manner. The findings of our membrane interaction studies were then applied to preparing peptide-loaded liposomes. Our results show that the magnitude of membrane binding observed in our exploratory in situ setup translates to corresponding levels of encapsulation efficiency in both of the two most commonly employed methods for the preparation of liposomes, i.e., thin-film hydration and microfluidic mixing. We believe that the methods and findings described in the present studies will be of use to a wide audience and can be applied to address the ongoing relevant issue of the efficient encapsulation of hydrophilic biomolecules.

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Conjugation of Native-Like HIV-1 Envelope Trimers onto Liposomes Using EDC/Sulfo-NHS Chemistry: Requirements and Limitations

Suleiman

Mayer

Lehner

et al. 2020

Pharmaceutics

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The display of native-like human immunodeficiency virus type 1 envelope (HIV-1 Env) trimers on liposomes has gained wide attention over the last few years. Currently, available methods have enabled the preparation of Env-liposome conjugates of unprecedented quality. However, these protocols require the Env trimer to be tagged and/or to carry a specific functional group. For this reason, we have investigated N-(3-Dimethylaminopropyl)-N′-ethylcarbodiimide/N-Hydroxysulfosuccinimide (EDC/Sulfo-NHS) chemistry for its potential to covalently conjugate tag-free, non-functionalized native-like Env trimers onto the surface of carboxyl-functionalized liposomes. The preservation of the liposome’s physical integrity and the immunogen’s conformation required a fine-tuned two-step approach based on the controlled use of β-mercaptoethanol. The display of Env trimers was strictly limited to activated liposomes of positive charge, i.e., liposomes with a positive zeta potential that carry amine-reactive Sulfo-NHS esters on their surface. In agreement with that, conjugation was found to be highly ionic strength- and pH-dependent. Overall, we have identified electrostatic pre-concentration (i.e., close proximity between negatively charged Env trimers and positively charged liposomes established through electrostatic attraction) to be crucial for conjugation reactions to proceed. The present study highlights the requirements and limitations of potentially scalable EDC/Sulfo-NHS-based approaches and represents a solid basis for further research into the controlled conjugation of tag-free, non-functionalized native-like Env trimers on the surface of liposomes, and other nanoparticles.

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Comparative study between synthetic and phospholipids of natural origin: effect of phospholipid selection on the behavior of a topical liposomal dosage form incorporating terbinafine

Koutsoulas

Suleiman

Wagner

et al. 2014

Journal of Liposome Research

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Selection of excipients used is a critical step in the design of a pharmaceutical dosage form as it affects its behavior upon application, as during storage. The purpose of the present study is to evaluate and compare the behavior of six liposomal formulations intended for topical application composed of two widely used phospholipids 1,2-diacyl-sn-glycero-3-phosphocholine and 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine with and without incorporation of cholesterol. Liposomal hydrogels made of hydroxyethylcellulose 3% and incorporating the anti-fungal agent terbinafine hydrochloride (E)-N-(6,6-dimethyl-2-hepten-4-inyl)-N-methyl-1-naphthalene-methanamine (-hydrochloride) were prepared, their viscosity was measured and in vitro drug release was studied. Moreover, physical stability and drug retention during storage at two different temperatures (2-8 °C and RT) were examined over time. The results showed differences in the behavior between the two phospholipids while incorporation of cholesterol at the studied concentrations was found to be of minor importance. Drug release was found to be favorable from 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) liposomal hydrogels and drug retention was found to be higher at lower storage temperature for all batches. Original physicochemical properties of all batches were found to be retained at least for a week.

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Ehsan Suleiman

Electrostatically Driven Encapsulation of Hydrophilic, Non-Conformational Peptide Epitopes into Liposomes

Conjugation of Native-Like HIV-1 Envelope Trimers onto Liposomes Using EDC/Sulfo-NHS Chemistry: Requirements and Limitations

Comparative study between synthetic and phospholipids of natural origin: effect of phospholipid selection on the behavior of a topical liposomal dosage form incorporating terbinafine

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