Dendrimer-encapsulated naphthalocyanine as a single agent-based theranostic nanoplatform for near-infrared fluorescence imaging and combinatorial anticancer phototherapy

Multifunctional theranostic platforms capable of concurrent near-infrared (NIR) fluorescence imaging and phototherapies are strongly desired for cancer diagnosis and treatment. However, the integration of separate imaging and therapeutic components into nanocarriers results in complex theranostic sy...

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Bibliographic Details
Published in:Nanoscale 2015-03, Vol.7 (9), p.3888-3902
Main Authors: Taratula, Olena, Schumann, Canan, Duong, Tony, Taylor, Karmin L, Taratula, Oleh
Format: Article
Language:English
Subjects:
Animals
Cancer
Cell Line, Tumor
Cell Survival - drug effects
Combinatorial analysis
Dendrimers - chemistry
Density
Encapsulation
Female
Fluorescence
Humans
Imaging
Infrared Rays
Irradiation
Mice
Mice, Nude
Nanoparticles - chemistry
Nanostructure
Organosilicon Compounds - chemistry
Organosilicon Compounds - pharmacology
Ovarian Neoplasms - diagnosis
Ovarian Neoplasms - therapy
Photochemotherapy
Photosensitizing Agents - chemistry
Photosensitizing Agents - pharmacology
Phototherapy
Polypropylenes - chemistry
Porphyrins - chemistry
Porphyrins - pharmacology
Singlet Oxygen - metabolism
Spectroscopy, Near-Infrared
Theranostic Nanomedicine
Tumors
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Summary:Multifunctional theranostic platforms capable of concurrent near-infrared (NIR) fluorescence imaging and phototherapies are strongly desired for cancer diagnosis and treatment. However, the integration of separate imaging and therapeutic components into nanocarriers results in complex theranostic systems with limited translational potential. A single agent-based theranostic nanoplatform, therefore, was developed for concurrent NIR fluorescence imaging and combinatorial phototherapy with dual photodynamic (PDT) and photothermal (PTT) therapeutic mechanisms. The transformation of a substituted silicon naphthalocyanine (SiNc) into a biocompatible nanoplatform (SiNc-NP) was achieved by SiNc encapsulation into the hydrophobic interior of a generation 5 polypropylenimine dendrimer following surface modification with polyethylene glycol. Encapsulation provides aqueous solubility to SiNc and preserves its NIR fluorescence, PDT and PTT properties. Moreover, an impressive photostability in the dendrimer-encapsulated SiNc has been detected. Under NIR irradiation (785 nm, 1.3 W cm(-2)), SiNc-NP manifested robust heat generation capability (ΔT = 40 °C) and efficiently produced reactive oxygen species essential for PTT and PDT, respectively, without releasing SiNc from the nanopaltform. By varying the laser power density from 0.3 W cm(-2) to 1.3 W cm(-2) the therapeutic mechanism of SiNc-NP could be switched from PDT to combinatorial PDT-PTT treatment. In vitro and in vivo studies confirmed that phototherapy mediated by SiNc can efficiently destroy chemotherapy resistant ovarian cancer cells. Remarkably, solid tumors treated with a single dose of SiNc-NP combined with NIR irradiation were completely eradicated without cancer recurrence. Finally, the efficiency of SiNc-NP as an NIR imaging agent was confirmed by recording the strong fluorescence signal in the tumor, which was not photobleached during the phototherapeutic procedure.
ISSN:2040-3364
2040-3372
DOI:10.1039/c4nr06050d