γ-Glutamyl transpeptidase (GGT),
a type of cell membrane-bound
enzyme, is closely involved in a wide range of physiological and pathological
processes, and a large number of fluorogenic probes have been developed
to detect the activity of GGT. However, the use of these imaging reagents
to visualize GGT activity in vivo is largely limited because of rapid
diffusion and clearance of activated fluorophores. Herein, by merging
quinone methide and a fluorogenic enzyme substrate, we report an activatable
self-immobilizing near-infrared probe for the in vitro and in vivo
imaging of GGT activity. This probe is initially fluorescently silent,
but the selective activation by GGT is able to significantly increase
its fluorescence intensity at 714 nm and covalently anchor activated
fluorophores at the site of interest. We have shown that this probe
induced a much stronger fluorescence on live GGT-overexpressing cells
compared to regular fluorogenic probes and allowed wash-free and real-time
imaging of enzyme activity. More importantly, the use of this probe
in the imaging of GGT activity in U87MG tumor-bearing mice by i.v.
administration indicates that this self-immobilizing reagent is capable
of efficiently enhancing its retention at the detection target and
thus leads to much improved detection sensitivity compared to regular
fluorogenic probes. This study demonstrates the advantage of fluorogenic
probes with activatable anchors in the noninvasive imaging of enzyme
activity in highly dynamic in vivo systems.