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Journal article

Complement activation by PEG-functionalized multi-walled carbon nanotubes is independent of PEG molecular mass and surface density

By Andersen, Alina Joukainen; Windschiegl, Barbara; Ilbasmis-Tamer, Sibel1; Degim, Ismail T.1; Hunter, Alan Christy2; Andresen, Thomas L.3,4; Moghimi, Seyed Moein

From

Gazi University1

University of Manchester2

Department of Micro- and Nanotechnology, Technical University of Denmark3

Colloids and Biological Interfaces, Department of Micro- and Nanotechnology, Technical University of Denmark4

Carboxylated (4%) multi-walled carbon nanotubes were covalently functionalized with poly(ethylene glycol)1000 (PEG1000), PEG1500 and PEG4000 with a PEG loading of approximately 11% in all cases. PEG loading generated non-uniform and heterogeneous higher surface structures and increased nanotube width considerably, but all PEGylated nanotube species activated the complement system in human serum equally.

Increased PEG loading, through adsorption of methoxyPEG2000(or 5000)-phospholipid conjugates, generated fewer complement activation products; however, complement activation was never completely eliminated. Our observations address the difficulty in making carbon nanotubes more compatible with innate immunity through covalent PEG functionalization as well as double PEGylation strategies.

From the Clinical EditorComplement-mediated toxicity is a major limiting factor in certain nanomedicine applications. This study clarifies that PEGylation of carbon nanotubes is unlikely to address this complication.

Language: English
Year: 2013
Pages: 469-473
ISSN: 15499642 and 15499634
Types: Journal article
DOI: 10.1016/j.nano.2013.01.011
ORCIDs: Andresen, Thomas L.
Keywords

Atomic force microscope Carbon nanotubes Complement system Innate immunity Poly(ethylene glycol)

Other keywords

Complement Activation Molecular Weight Nanotubes, Carbon Polyethylene Glycols Surface Properties

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