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Flavin-Conjugated Nanobombs: Key Structural Requirements Governing Their Self-Assemblies’ Morphologies

Jonathan Ribes, Nataliia Beztsinna, Rémy Bailly, Sabine Castano, Estelle Rascol, Nada Taib-Maamar, Eduard Badarau, Isabelle Bestel

2021Bioconjugate Chemistry14 citationsDOIOpen Access PDF

Abstract

In contrast to artificial molecules, natural photosensitizers have the benefit of excellent toxicity profiles and of life-compatible activating energy ranges. Flavins are such photosensitizers that were selected by nature in a plethora of light-triggered biochemical reactions. Flavin-rich nanoparticles could thus emerge as promising tools in photodynamic therapies and in active-targeting drug delivery. Self-assembled flavin-conjugated phospholipids improve the pharmacokinetics of natural flavins and, in the case of controlled morphologies, reduce photobleaching phenomena. The current article presents a proof of concept for the design of riboflavin-rich nanoparticles of tunable morphology from multilamellar patches to vesicular self-assemblies. Coarse-grained simulations of the self-assembling process revealed the key interactions governing the obtained nanomaterials and successfully guided the synthesis of new flavin-conjugates of predictable self-assembly. The obtained flavin-based liposomes had a 65 nm hydrodynamic diameter, were stable, and showed potential photosensitizer activity.

Topics & Concepts

Flavin groupChemistryConjugated systemRiboflavinPhotobleachingPhotosensitizerNanotechnologyDrug deliveryMoleculeCombinatorial chemistryPhotochemistryOrganic chemistryFluorescenceBiochemistryEnzymeQuantum mechanicsPhysicsPolymerMaterials scienceSupramolecular Self-Assembly in MaterialsPolydiacetylene-based materials and applicationsAdvanced biosensing and bioanalysis techniques
Flavin-Conjugated Nanobombs: Key Structural Requirements Governing Their Self-Assemblies’ Morphologies | Litcius