A Target Cell-specific Activatable Fluorescence Probe for in Vivo Molecular Imaging of Cancer Based on a Self-quenched Avidin-rhodamine Conjugate

Overview

Journal Cancer Res

Specialty Oncology

Date 2007 Mar 17

PMID 17363601

Citations 45

Authors

Yukihiro Hama

Yasuteru Urano

Yoshinori Koyama

Mako Kamiya

Marcelino Bernardo

Ronald S Paik

In Soo Shin

Chang H Paik

Peter L Choyke

Hisataka Kobayashi

Affiliations

Soon will be listed here.

Abstract

A target cell-specific activation strategy for improved molecular imaging of peritoneal implants has been proposed, in which fluorophores are activated only in living targeted cells. A current example of an activatable fluorophore is one that is normally self-quenched by attachment to a peptide backbone but which can be activated by specific proteases that degrade the peptide resulting in "dequenching." In this study, an alternate fluorescence activation strategy is proposed whereby self-quenching avidin-rhodamine X, which has affinity for lectin on cancer cells, is activated after endocytosis and degradation within the lysosome. Using this approach in a mouse model of peritoneal ovarian metastases, we document target-specific molecular imaging of submillimeter cancer nodules with minimal contamination by background signal. Cellular internalization of receptor-ligand pairs with subsequent activation of fluorescence via dequenching provides a generalizable and highly sensitive method of detecting cancer microfoci in vivo and has practical implications for assisting surgical and endoscopic procedures.

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