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Bölükbas, D.A. ; Datz, S.* ; Meyer-Schwickerath, C. ; Morrone, C. ; Doryab, A. ; Gößl, D.* ; Vreka, M. ; Yang, L. ; Argyo, C.* ; van Rijt, S.H. ; Lindner, M. ; Eickelberg, O. ; Stöger, T. ; Schmid, O. ; Lindstedt, S.* ; Stathopoulos, G.T. ; Bein, T.* ; Wagner, D.E.* ; Meiners, S.

Organ‐restricted vascular delivery of nanoparticles for lung cancer therapy.

Adv. Therap. 3:2000017 (2020)
Publ. Version/Full Text Research data DOI
Open Access Gold (Paid Option)
Creative Commons Lizenzvertrag

Nanoparticle‐based targeted drug delivery holds promise for treatment of cancers. However, most approaches fail to be translated into clinical success due to ineffective tumor targeting in vivo. Here, the delivery potential of mesoporous silica nanoparticles (MSN) functionalized with targeting ligands for epidermal growth factor receptor and C─C chemokine receptor type 2 is explored in lung tumors. The addition of active targeting ligands on MSNs enhances their uptake in vitro but fails to promote specific delivery to tumors in vivo, when administered systemically via the blood or locally to the lung into immunocompetent murine lung cancer models. Ineffective tumor targeting is due to efficient clearance of the MSNs by the phagocytic cells of the liver, spleen, and lung. These limitations, however, are successfully overcome using a novel organ‐restricted vascular delivery (ORVD) approach. ORVD in isolated and perfused mouse lungs of Kras‐mutant mice enables effective nanoparticle extravasation from the tumor vasculature into the core of solid lung tumors. In this study, ORVD promotes tumor cell‐specific uptake of nanoparticles at cellular resolution independent of their functionalization with targeting ligands. Organ‐restricted vascular delivery thus opens new avenues for optimized nanoparticles for lung cancer therapy and may have broad applications for other vascularized tumor types.

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Publication type Article: Journal article
Document type Scientific Article
Keywords biological barriers, lung cancer, nanoparticles, organ-restricted vasculardelivery, solid tumors
ISSN (print) / ISBN 2366-3987
e-ISSN 2366-3987
Quellenangaben Volume: 3, Issue: 7, Pages: , Article Number: 2000017 Supplement: ,
Publisher Wiley
Reviewing status Peer reviewed