Hyaluronic Acid-Modified Fluorescent Probe for Dual Color Imaging of Living Cell.

Nanoprobes with biocompatibility and strong fluorescence have unique advantages in tumor detection and diagnosis. A nanoparticle with dual fluorescent signals for detecting and imaging of tumor cells was prepared, in which the outer layer of the particle is a hyaluronic acid-modified molecule with aggregation-induced emission properties, and the inner content is the boron-dipyrromethene (BODIPY) derivative. This nanoparticle has low critical micelle concentration, small size, and high fluorescence intensity. Cell imaging experiments showed that it is capable of stable cell imaging with a red and blue fluorescence conversion in response to cancer cells. Furthermore, the zebrafish experiment confirmed that it can be used for biological imaging. Nanoparticles with dual fluorescence response properties of the coated structure provide an effective way for detecting cancer cells.