Optical contrast agents containing near-infrared (NIR) fluorophores are useful for visualizing biological landmarks, enzyme activities and biological processes in live animals and humans. Activatable (smart) quenched-fluorescent probes are sensors that become fluorescent after processing by an enzyme or in response to a physiological change (i.e., pH, ROS, etc.). Recently, there has been increased interest in developing activatable probes for research and clinical applications. This requires evaluation using in vivo animal models to gain insights into the pharmacodynamic and pharmacokinetic properties of a given probe. Important parameters to measure when evaluating quenched-fluorescent probes are signal brightness and signal-to-background ratios, which define the sensitivity and specificity of a probe. In this chapter, we discuss methods to evaluate activatable quenched-fluorescent probes in mouse models of cancer. Quantification of fluorescent signal intensity, calculation of tumor-to-background ratios, comparison of fluorescent activation in specific organ compartments, and fluorescence scanning of sectioned tissue will be discussed.
Keywords: Activatible fluorescent probes; Fluorescence imaging; Mouse models of cancer; Optical contrast agents.
© 2020 Elsevier Inc. All rights reserved.