摘要

The early diagnosis of ovarian cancer plays an important role in the treatment of ovarian cancer. beta-Galactosidase(beta-gal) which is an overexpressed enzyme in primary ovarian cancer can be employed as a valuable biomarker of ovarian cancer. A fluorescent probe for beta-gal detection and imaging is of important significance for the diagnosis of primary ovarian cancer. Toward this goal, we have rationally designed and synthesized a novel two-photon fluorescence probe FC-beta gal for monitoring endogenous,beta-gal in lysosome. The probe FC-beta gal showed apparently fluorescence changes from blue to green in response to beta-gal by the cleavage of glycosidic bond. 4-Propylmorpholine group endowed the probe with the property of lysosomal targeting. We confirmed that the probe FC-beta gal exhibited rapid response, high sensitivity, excellent biocompatibility and favorable performances to beta-gal even in the interfering of other biologic substances. In addition, single photon and two-photon confocal imaging experiments indicated that probe FC-beta gal displayed a desirable cellular imaging for endogenous beta-gal in human ovarian cancer SKOV-3 cells with low cytotoxicity. Moreover, the probe had satisfactory ability to accumulate into lysosomes compared with LysoTracker.