IR780-polymer conjugates for stable near-infrared labeling of biodegradable polyester-based nanocarriers.
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Date
2019
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Abstract
Near-infrared dyes are useful to monitor nanocarriers in vitro and in vivo and can serve as photosensitizers in cancer photodynamic therapy. However, strategies need to be developed to guarantee that the dye photophysical properties and loading within the drug delivery system remain stable for reliable tracking within biological systems. This work reports the facile chemical conjugation of the carbocyanine heptamethine near-infrared dye IR780 to polylactide for stable fluorescent labeling of biodegradable polyester nanocarriers. “Clickable” polylactide was synthesized via organocatalyzed ring opening polymerization of D,L-lactide with a cyclooctyne initiator. IR780 was derivatized and conjugated to polylactide via a one-pot copper-free azide-alkyne cycloaddition reaction. The synthetic strategy developed was effective to promote conjugation of the near-infrared fluorescent dye to polylactide, as confirmed by high performance liquid chromatography. Nanoparticles containing the dye–polymer conjugate were prepared by nanoprecipitation and characterized. Asymmetric flow field-flow fractionation with light scattering and fluorescence detection revealed that the near-infrared fluorescence of the nanoparticles remained stable and was not transferred to serum proteins. In contrast, significant transfer of the dye to serum proteins was evidenced when the dye was merely encapsulated in similar nanoparticles through physical entrapment. Confocal microscopy and fluorescence tomography imaging showed that the polymer-dye conjugate confers fluorescence properties to the NP suitable for further in vitro and in vivo pre-clinical studies.
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Keywords
Fluorescent label, Polylactide, Click chemistry, Field flow fractionation
Citation
OLIVEIRA, M. A. et al. IR780-polymer conjugates for stable near-infrared labeling of biodegradable polyester-based nanocarriers. European Polymer Journal, v. 120, p. 109255, nov. 2019. Disponível em: <https://www.sciencedirect.com/science/article/pii/S0014305719312352>. Acesso em: 10 fev. 2020.