Issue 36, 2013

Protein triggered fluorescence switching of near-infrared emitting nanoparticles for contrast-enhanced imaging

Abstract

Sub-100 nm colloidal particles which are surface-functionalized with multiple environmentally-sensitive moieties have the potential to combine imaging, early detection, and the treatment of cancer with a single type of long-circulating “nanodevice”. Deep tissue imaging is achievable through the development of particles which are surface-modified with fluorophores that operate in the near-infrared (NIR) spectrum and where the fluorophore's signal can be maximized by “turning-on” the fluorescence only in the targeted tissue. We present a general approach for the synthesis of NIR emitting nanoparticles that exhibit a protein triggered activation/deactivation of the emission. Dispersing the particles into an aqueous solution, such as phosphate buffered saline (PBS), resulted in an aggregation of the hydrophobic fluorophores and a cessation of emission. The emission can be reinstated, or activated, by the conversion of the surface-attached fluorophores from an aggregate to a monomeric species with the addition of an albumin. This activated probe can be deactivated and returned to a quenched state by a simple tryptic digestion of the albumin. The methodology for emission switching offers a path to maximize the signal from the typically weak quantum yield inherent in NIR fluorophores.

Graphical abstract: Protein triggered fluorescence switching of near-infrared emitting nanoparticles for contrast-enhanced imaging

Supplementary files

Article information

Article type
Paper
Submitted
14 Maijs 2013
Accepted
18 Jūl. 2013
First published
18 Jūl. 2013

J. Mater. Chem. B, 2013,1, 4542-4554

Protein triggered fluorescence switching of near-infrared emitting nanoparticles for contrast-enhanced imaging

R. Jetty, Y. P. Bandera, M. A. Daniele, D. Hanor, Hsin-I. Hung, V. Ramshesh, M. F. Duperreault, A. Nieminen, J. J. Lemasters and S. H. Foulger, J. Mater. Chem. B, 2013, 1, 4542 DOI: 10.1039/C3TB20681E

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