(18)F-labeled-bioorthogonal liposomes for in vivo targeting

Liposomes are attractive vehicles for the controlled release of drugs and cytotoxins and have a long-standing history in medical research and clinical practice. In addition to established therapeutic indications, liposomes have several favorable properties for molecular imaging, including high stabi...

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Veröffentlicht in:	Bioconjugate chemistry 2013-11, Vol.24 (11), p.1784
Hauptverfasser:	Emmetiere, Fabien, Irwin, Christopher, Viola-Villegas, Nerissa Therese, Longo, Valerie, Cheal, Sarah M, Zanzonico, Pat, Pillarsetty, Nagavarakishore, Weber, Wolfgang A, Lewis, Jason S, Reiner, Thomas
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Schlagworte:	Animals Cell Line, Tumor Click Chemistry Cyclooctanes - chemistry Drug Delivery Systems - methods Fluorine Radioisotopes - metabolism Humans Liposomes - chemistry Liposomes - metabolism Liposomes - pharmacokinetics Mice Models, Molecular Molecular Structure Neoplasms, Experimental - diagnosis Neoplasms, Experimental - metabolism Pharmaceutical Preparations - administration & dosage Pharmaceutical Preparations - metabolism Positron-Emission Tomography Tetrazoles - chemistry
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container_title	Bioconjugate chemistry
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creator	Emmetiere, Fabien Irwin, Christopher Viola-Villegas, Nerissa Therese Longo, Valerie Cheal, Sarah M Zanzonico, Pat Pillarsetty, Nagavarakishore Weber, Wolfgang A Lewis, Jason S Reiner, Thomas
description	Liposomes are attractive vehicles for the controlled release of drugs and cytotoxins and have a long-standing history in medical research and clinical practice. In addition to established therapeutic indications, liposomes have several favorable properties for molecular imaging, including high stability and the ability to be labeled with radioisotopes, as well as paramagnetic and fluorescent contrast agents. However, long circulation times and difficulties in creating targeted liposomes have proven challenges for imaging. In this study, we have addressed these limitations using a recently developed strategy for bioorthogonal conjugation, the reaction between tetrazines and trans-cyclooctenes. By coating radiolabeled liposomes with trans-cyclooctene and pretargeting with a tetrazine coupled to a targeted peptide, we were able to selectively enhance the retention of liposomes and bind them to tumor tissue in live animals. The rapid reaction between tetrazines and trans-cyclooctenes allowed imaging to be performed with the short-lived PET tracer (18)F, yielding signal-to-background activity ratios of 7:1. The covalent, bioorthogonally driven tumor-targeting of liposomes by in vivo click chemistry is promising and should be explored for more selective and rapid delivery of radiodiagnostics and radiotherapeutics, two classes of drugs which particularly benefit from fast clearance, low nonspecific binding, and the associated reduced toxicity to kidneys and bone marrow.
doi_str_mv	10.1021/bc400322h
format	Article
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subjects	Animals Cell Line, Tumor Click Chemistry Cyclooctanes - chemistry Drug Delivery Systems - methods Fluorine Radioisotopes - metabolism Humans Liposomes - chemistry Liposomes - metabolism Liposomes - pharmacokinetics Mice Models, Molecular Molecular Structure Neoplasms, Experimental - diagnosis Neoplasms, Experimental - metabolism Pharmaceutical Preparations - administration & dosage Pharmaceutical Preparations - metabolism Positron-Emission Tomography Tetrazoles - chemistry
title	(18)F-labeled-bioorthogonal liposomes for in vivo targeting
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