Litcius/Paper detail

Biodegradable arginine based steroid-surfactants: Cationic green agents for hydrophobic ion-pairing

Arne Matteo Jörgensen, Patrick Knoll, Soheil Haddadzadegan, Hannah Fabian, Andrea Hupfauf, Ronald Gust, Rainer Georg Jörgensen, Andreas Bernkop‐Schnürch

2022International Journal of Pharmaceutics17 citationsDOIOpen Access PDF

Abstract

The aim of this study was to evaluate the safety and efficacy for hydrophobic ion-pairing of surfactants based on arginine (Arg). The prepared Arg-cholesteryl ester (ACE) and Arg-diosgenyl ester (ADE) were characterized regarding solubility, pKa, critical micellar concentration (CMC), biodegradability as well as membrane- and aquatic toxicity using DOTAP as reference. The ability for hydrophobic ion-pairing was evaluated and the lipophilicity of formed complexes was determined. NMR, FT-IR and MS confirmed successful synthesis of Arg-surfactants. The slightly soluble single-charged Arg-surfactants (pH < pKa3 (ACE = 10.42 ± 0.52; ADE = 10.38 ± 0.27)) showed CMCs of 27.17 µM for ACE and 35.67 µM for ADE. CMCs of the sparingly soluble double-charged species (pH < pKa2 (ACE = 5.30 ± 0.20; ADE = 5.55 ± 0.06)) were determined at concentrations of ≥ 250 µM for ACE and ≥ 850 µM for ADE. The enzymatic- and environmental biodegradability was proven by an entire cleavage of Arg-surfactants within 24 h, whereas DOTAP remained stable. Arg-surfactants exhibited lower membrane- (> 2-fold) and aquatic toxicity (> 15-fold) than DOTAP. The complexes formed with Arg-surfactants and insulin showed higher lipophilicity than the DOTAP-complex. According to these results, Arg-surfactants might be a promising safe tool for the delivery of peptide drugs.

Topics & Concepts

LipophilicityChemistryBiodegradationCationic polymerizationCritical micelle concentrationSolubilityMicelleMembraneOrganic chemistryChromatographyAqueous solutionBiochemistrySurfactants and Colloidal SystemsEnvironmental Chemistry and AnalysisAnalytical Chemistry and Chromatography