Anionic Amphiphilic Calixarenes for Peptide Assembly and Delivery
Résumé
Shape-persistent macrocycles enable superior control on molecular self-assembly, allowing the preparation of well-defined nanostructures with new functions. Here, we report on anionic amphiphilic calixarenes of conic shape and their self-assembly behavior in aqueous media for application in intracellular delivery of peptides. Newly synthesized calixarenes bearing four phosphonate groups and two or four long alkyl chains were found to form micelles of ~10 nm diameter, in contrast to an analogue with short alkyl chains. These amphiphilic calixarenes are able to complex model (oligo-lysine) and biologically relevant (HIV-1 nucleocapsid peptide) cationic peptides into small nanoparticles (20-40 nm). By contrast, a control anionic calixarene with short alkyl chains fails to form small nanoparticles with peptides, highlighting the importance of micellar assembly of amphiphilic calixarenes for peptide complexation. Cellular studies reveal that anionic amphiphilic calixarenes exhibit low cytotoxicity and enable internalization of fluorescently labelled peptides into live cells. These findings suggest anionic amphiphilic macrocycles as promising building blocks for the preparation of peptide delivery vehicles.
Mots clés
shape-persistent surfactants anionic amphiphilic macrocycles self-assembly micelles peptide-surfactant interactions peptide nanoparticles peptide delivery cell internalization fluorescence spectroscopy fluorescence microscopy
shape-persistent surfactants
anionic amphiphilic macrocycles
self-assembly
micelles
peptide-surfactant interactions
peptide nanoparticles
peptide delivery
cell internalization
fluorescence spectroscopy
fluorescence microscopy
Domaines
Chimie
Fichier principal
Manuscript-calix-pep-final.pdf (748.13 Ko)
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SI-Calix-pep-final.pdf (912.02 Ko)
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