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  • The effect of hyperbranched polyglycerol coatings on drug delivery using degradable polymer nanoparticles.

The effect of hyperbranched polyglycerol coatings on drug delivery using degradable polymer nanoparticles.

Biomaterials (2014-05-13)
Yang Deng, Jennifer K Saucier-Sawyer, Christopher J Hoimes, Junwei Zhang, Young-Eun Seo, Jillian W Andrejecsk, W Mark Saltzman
RESUMO

A key attribute for nanoparticles (NPs) that are used in medicine is the ability to avoid rapid uptake by phagocytic cells in the liver and other tissues. Poly(ethylene glycol) (PEG) coatings has been the gold standard in this regard for several decades. Here, we examined hyperbranched polyglycerols (HPG) as an alternate coating on NPs. In earlier work, HPG was modified with amines and subsequently conjugated to poly(lactic acid) (PLA), but that approach compromised the ability of HPG to resist non-specific adsorption of biomolecules. Instead, we synthesized a copolymer of PLA-HPG by a one-step esterification. NPs were produced from a single emulsion using PLA-HPG: fluorescent dye or the anti-tumor agent camptothecin (CPT) were encapsulated at high efficiency in the NPs. PLA-HPG NPs were quantitatively compared to PLA-PEG NPs, produced using approaches that have been extensively optimized for drug delivery in humans. Despite being similar in size, drug release profile and in vitro cytotoxicity, the PLA-HPG NPs showed significantly longer blood circulation and significantly less liver accumulation than PLA-PEG. CPT-loaded PLA-HPG NPs showed higher stability in suspension and better therapeutic effectiveness against tumors in vivo than CPT-loaded PLA-PEG NPs. Our results suggest that HPG is superior to PEG as a surface coating for NPs in drug delivery.

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Sigma-Aldrich
DAPI, for nucleic acid staining
Sigma-Aldrich
(S)-(+)-Camptothecin, ≥90% (HPLC), powder
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Potassium methoxide, 95%
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1,1,1-Tris(hydroxymethyl)propane, dist., ≥98.0% (GC)
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1,1,1-Tris(hydroxymethyl)propane, 97%
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Potassium methoxide solution, ~25% in methanol (T)
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2-(Dimethylamino)pyridine, 97%