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Radiodynamic Therapy Using TAT Peptide-Targeted Verteporfin-Encapsulated PLGA Nanoparticles

Sandhya Clement, Ayad G. Anwer, Layla Pires, Jared M. Campbell, Brian C. Wilson, Ewa M. Goldys

2021International Journal of Molecular Sciences31 citationsDOIOpen Access PDF

Abstract

Radiodynamic therapy (RDT) is a recent extension of conventional photodynamic therapy, in which visible/near infrared light irradiation is replaced by a well-tolerated dose of high-energy X-rays. This enables greater tissue penetration to allow non-invasive treatment of large, deep-seated tumors. We report here the design and testing of a drug delivery system for RDT that is intended to enhance intra- or peri-nuclear localization of the photosensitizer, leading to DNA damage and resulting clonogenic cell kill. This comprises a photosensitizer (Verteporfin, VP) incorporated into poly (lactic-co-glycolic acid) nanoparticles (PLGA NPs) that are surface-functionalized with a cell-penetrating HIV trans-activator of transcription (TAT) peptide. In addition to a series of physical and photophysical characterization studies, cytotoxicity tests in pancreatic (PANC-1) cancer cells in vitro under 4 Gy X-ray exposure from a clinical 6 MV linear accelerator (LINAC) showed that TAT targeting of the nanoparticles markedly enhances the effectiveness of RDT treatment, particularly when assessed by a clonogenic, i.e., DNA damage-mediated, cell kill.

Topics & Concepts

PhotosensitizerVerteporfinPhotodynamic therapyPLGAClonogenic assayCytotoxicityCancer researchNanocarriersChemistryCell-penetrating peptideDrug deliveryBiophysicsIn vitroPeptideMaterials scienceNanotechnologyMedicineBiochemistryPhotochemistryBiologyRetinalOrganic chemistryChoroidal neovascularizationNanoplatforms for cancer theranosticsPhotodynamic Therapy Research StudiesOcular Oncology and Treatments
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