6533b836fe1ef96bd12a1498

RESEARCH PRODUCT

Orthogonal Click Conjugation to the Liposomal Surface Reveals the Stability of the Lipid Anchorage as Crucial for Targeting

Thomas FritzMatthias WormMark HelmSophie S. MüllerHolger FreyFrank RoeschTobias L. RossInka NegwerInka NegwerMatthias VoigtKaloian KoynovKathrin Kettenbach

subject

GlycerolPolymersStereochemistryAlkyne02 engineering and technology010402 general chemistry01 natural sciencesCatalysisFolic AcidAmphiphileHumanschemistry.chemical_classificationLiposomeOrganic ChemistryGeneral ChemistryReceptor-mediated endocytosis021001 nanoscience & nanotechnologyLipids0104 chemical sciencesCholesterolMembraneFolic acidchemistryLiposomesDrug deliveryClick chemistryBiophysicsClick Chemistry0210 nano-technology

description

Synthetic access to multiple surface decorations are a bottleneck in the development of liposomes for receptor mediated targeting. This opens a complex multiparameter space, exploration of which is severely limited in terms of sample numbers and turnaround times. Here, we unlock this technological barrier by a combination of a milligram-scale liposome formulation using dual centrifugation and orthogonal click chemistry on the liposomal surface. Application of these techniques to conceptually new amphiphilic compounds, which feature norbornene and alkyne groups at the apex of sterically stabilizing, hyperbranched polyglycerol moieties, revealed a particular influence of the membrane anchor of functional amphiphiles. Folic acid residues clicked to cholesterol-based amphiphiles were inefficient in folate-mediated cell targeting, while dialkyl-anchored amphiphiles remained stable in the liposomal membrane and imparted efficient targeting properties. These findings are of specific importance considering the popularity of cholesterol as a lipophilic anchor.

yearjournalcountryeditionlanguage
2016-06-10Chemistry - A European Journal
https://doi.org/10.1002/chem.201602758