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Title:
Positively Charged Dendron Micelles Display Negligible Cellular Interactions
Date:
1/2013
Link to Journal Abstract
Abstract:
PEGylated dendron-based copolymers (PDCs) with different end-group functionalities (−NH2, −COOH, and −Ac) were synthesized and self-assembled into dendron micelles to investigate the effect of terminal surface charges on size, morphology, and cellular interactions of the micelles. All of the dendron micelles exhibited similar sizes (20–60 nm) and spherical morphologies, as measured using dynamic light scattering and transmission electron microscopy, respectively. The cellular interactions of dendron micelles were evaluated using confocal microscopy and flow cytometry. Surprisingly, although amine-terminated dendrimers are known to strongly interact with cells nonspecifically, all of the surface-modified dendron micelles exhibited charge-independent low levels of cellular interactions. The unexpected results, particularly from the amine-terminated dendron micelles, could be attributed to: (i) minimal end-group effects, as each PDC has an approximately 10-fold lower charge-number-to-molecular-weight ratio compared to the dendrimer, and (ii) intra- and intermolecular hydrogen bonding between positively charged terminal groups with poly(ethylene glycol) (PEG) backbones, which leads to the sequestration of the charges, as demonstrated by atomistic molecular dynamics simulations. With the narrow size distribution, uniform morphologies, and low levels of nonspecific cellular interactions, the dendron micelles offer a promising drug delivery platform.
Non-technical Summary:
For this study, PEGylated dendron-based copolymers (PDCs) with different end-group functionalities (−NH2, −COOH, and −Ac) were synthesized and self-assembled into dendron micelles to investigate the effect of terminal surface charges on size, morphology, and cellular interactions of the micelles.
Content Emphasis
Peer Reviewed Journal Article
Exposure Or Hazard Target
Mammalian
Exposure Pathway
Other/Unspecified
Method Of Study
In Vitro
Paper Type
Exposure
Particle Type
Organic/Polymers
Production Method
Engineered
Risk Exposure Group
General Population
Target Audience
Technical Research
Citation:
ACS Macro Letters, 2(1): 77-81 (January 2013)
Publication:
ACS Macro Letters
Author:
Pearson RM, Patra N, Hsu HJ, Uddin S, Kral P, Hong S
Volume:
2
Number:
1
Pages:
77-81
Last updated on March 4, 2013
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This work is supported in part by the Nanoscale Science and Engineering Initiative of the National Science Foundation
under NSF Award Number EEC-0118007.
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