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RESEARCH PRODUCT
Brush Conformation of Polyethylene Glycol Determines the Stealth Effect of Nanocarriers in the Low Protein Adsorption Regime
Shuai JiangJohanna SimonJohanna SimonManfred WagnerKatharina LandfesterVolker MailänderVolker MailänderDavid PaßlickDavid PaßlickDaniel CrespyMarie-luise FreyMengyi Lisubject
LetterLow proteinPolymersMolecular ConformationBioengineeringProtein Corona02 engineering and technologyPolyethylene glycolPolyethylene Glycolschemistry.chemical_compoundprotein coronaPEG ratioGeneral Materials Sciencechemistry.chemical_classificationstealth effectDrug CarriersChemistrynanoparticleMechanical EngineeringPEGylationGeneral ChemistryPolymer021001 nanoscience & nanotechnologyCondensed Matter PhysicsBiophysicsPEGylationNanoparticlesNanomedicineAdsorptionNanocarriers0210 nano-technologyPEG conformationdescription
For nanocarriers with low protein affinity, we show that the interaction of nanocarriers with cells is mainly affected by the density, the molecular weight, and the conformation of polyethylene glycol (PEG) chains bound to the nanocarrier surface. We achieve a reduction of nonspecific uptake of ovalbumin nanocarriers by dendritic cells using densely packed PEG chains with a "brush" conformation instead of the collapsed "mushroom" conformation. We also control to a minor extent the dysopsonin adsorption by tailoring the conformation of attached PEG on the nanocarriers. The brush conformation of PEG leads to a stealth behavior of the nanocarriers with inhibited uptake by phagocytic cells, which is a prerequisite for successful in vivo translation of nanomedicine to achieve long blood circulation and targeted delivery. We can clearly correlate the brush conformation of PEG with inhibited phagocytic uptake of the nanocarriers. This study shows that, in addition to the surface's chemistry, the conformation of polymers controls cellular interactions of the nanocarriers.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-02-01 |