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Tailoring Fluorescent Dyes To Optimize a Hybrid RGD-Tracer.

Anton Bunschoten ,
Danny M van Willigen ,
Tessa Buckle ,
Nynke S van den Berg ,
Mick M Welling ,
Silvia J Spa ,
Hans-Jürgen Wester ,
Fijs W B van Leeuwen

Abstract

Quantitative assessment of affinity and kinetics is a critical component in the development of (receptor-targeted) radiotracers. For fluorescent tracers, such an assessment is currently not yet applied, while (small) changes in chemical composition of the fluorescent component might have substantial influence on the overall properties of a fluorescent tracer. Hybrid imaging labels that contain both a radiolabel and a fluorescent dye can be used to evaluate both the affinity (fluorescent label) and the in vivo distribution (radiolabel) of a targeted tracer. We present a hybrid label oriented and matrix-based scoring approach that enabled quantitative assessment of the influence of (overall) charge and lipophilicity of the fluorescent label on the (in vivo) characteristics of αvβ3-integrin targeted tracers. Systematic chemical alterations in the fluorescent dye were shown to result in a clear difference in the in vivo distribution of the different hybrid tracers. The applied evaluation technique resulted in an optimized targeted tracer for αvβ3-integrin, which combined the highest T/M ratio with the lowest uptake in other organs. Obviously this selection concept would also be applicable during the development of other (receptor-targeted) imaging tracers.

More about this publication

Bioconjugate chemistry

Volume 27
Issue nr. 5
Pages 1253-8
Publication date 18-05-2016

Full text links

Publisher website (DOI) 10.1021/acs.bioconjchem.6b00093
Europe PubMed Central 27074375
Pubmed 27074375

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