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  • Title: Synergistic targeting tenascin C and neuropilin-1 for specific penetration of nanoparticles for anti-glioblastoma treatment.
    Author: Kang T, Zhu Q, Jiang D, Feng X, Feng J, Jiang T, Yao J, Jing Y, Song Q, Jiang X, Gao X, Chen J.
    Journal: Biomaterials; 2016 Sep; 101():60-75. PubMed ID: 27267628.
    Abstract:
    The pathological and physiological barriers of glioblastoma multiforme (GBM) lead to insufficient extravasation and penetration of nano-sized therapeutics. As the main driver of interstitial fluid pressure-related drug efflux, the aberrant extracellular matrix (ECM) appears to be a valuable target that plays a crucial role in forming pathological barriers of GBM. Herein, a new Ft peptide was synthesized by coupling FHK and tLyp-1 sequence together via a cysteine to synergistically target glioma-associated tenascin C (extracellular matrix component) and neuropilin-1 on neovasculature and glioma cells to enable specific penetration of nanoparticles for anti-glioblastoma treatment. In vitro, Ft peptide-functionalization not only enabled the internalization of poly (ethyleneglycol)-poly (lactic acid) nanoparticulate system in 2D U87 MG cells and HUVEC cells but also facilitated its deep penetration in 3D glioma spheroids. Similarly, in vivo real-time 2D and 3D imaging clearly showed a substantial accumulation of the Ft-functionalized nanoparticles (Ft-NP) in the glioma foci of intracranial U87 glioma-bearing mice. Glioma distribution assay demonstrated a tenascin C-mediated accumulation in glioma foci and neuropilin-1-mediated transportation through glioma cells. Paclitaxel-loaded Ft-NP (Ft-NP-PTX) induced higher cytotoxic effect and apoptosis rate compared with FHK or tLyp-1-modified ones. The highest anti-glioma efficacy was also achieved following the i.v. administration of Ft-NP-PTX, with a median survival promotion of 269% than that of the saline-treated mice, while only limited life span promotion was obtained after the treatment of other formulations (31.3%, 59.4%, 134.4% and 109.3% respectively for Taxol(®), NP-PTX, tLyp-1-NP-PTX and FHK-NP-PTX). In conclusion, all these evidences together verified the improved therapeutic effect of Ft-NP-PTX for anti-glioma drug delivery via neuropilin-1- and tenascin C-mediated specific penetration of nanoparticles in to glioma parenchyma.
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