Polypeptide-rhodamine B probes containing laminin/fibronectin receptor-targeting sequence (YIGSR/RGD) for fluorescent imaging in cancers

Currently, fluorescent imaging is one of the most promising diagnostic approaches for facile detection of cancers in situ in thanks to a fluorescent probe. Two novel polypeptide-based fluorescent probes for different biomarkers to cancers are reported here. These probes focused on tyrosine-isoleucine-glycine-serine-arginine (YIGSR) and arginine-glycine-aspartic (RGD), which receptors play an important role in the extracellular matrix and are overexpressed in tumor cells and then can be used as tumor-targeting groups in fluorescent imaging. In this work, the pentpeptide-rhodamine B derivative (YIGSR-RhB) and tripeptide-rhodamine B derivative (RGD-RhB) were synthesized respectively by using the solid phase synthesis methods. These derivatives were further characterized by 1HNMR, MS, UV and IR, etc. Their fluorescent and biocompatibility properties, such as the cell cytotoxicity, cell uptake and fluorescent imaging of tumor cells, and fluorescent imaging in BALB/c female mice with 4T1 tumors and C57 mice with B16F10 tumor in vivo, were also measured. Experiment results demonstrated that YIGSR-RhB and RGD-RhB possessed the low cell cytotoxicity, good tumor-targeting property and fluorescent properties similar to rhodamine B. Moreover, YIGSR-RhB and RGD-RhB can be taken up highly by the B16F10 melanoma cells and 4T1 breast cancer cells, and then achieve the good fluorescent imaging in these tumor cells in vitro and tumors of mice in vivo. Therefore, YIGSR-RhB and RGD-RhB can be used as the potential tumor-targeting probes for fluorescent imaging. They can directly attach the cell membrane and specifically target to the tumor cells.