Functional role of sialyl Lewis X and fibronectin-derived RGDS peptide analogue on tumor-cell arrest in lungs followed by extravasation

Our study demonstrates that synthetic sialyl Lewis X (SLe^x) as a ligand for selectins and fibronectin-derived RGDS peptide analogue[Ar(DRGDS)₃] inhibits lung metastases produced by i.v. co-injection of B16-BL6 melanoma cells. To investigate the inhibitory mechanisms in a living animal, we performed positron-emission tomography (PET) analysis after i.v. injection of [2-¹⁸F]2-fluoro-2-deoxy-D-glucose-labeled tumor cells with or without liposomal SLe^x or Ar(DRGDS)₃. The real-time PET measurement for the first 120 min, started immediately after injection, showed that tumor-cell arrest, i.e., accumulation in the target organ (lung) was remarkably inhibited by liposomal SLe^x, but not inhibited by Ar(DRGDS)₃ or liposomal Me-SLe^x, which is not recognized by selectins. In contrast, AR(DRGDS)₃ inhibited the invasion of B16-BL6 cells into reconstituted basement membrane (Matrigel) following tumor arrest, whereas SLe^x- or Me-SLe^x-entrapped liposomes did not affect tumor invasion. In the metastatic processes containing tumor-cell lodgement and arrest in the target organ followed by extravasation (invasion), SLe^x resulted in the inhibition of initial arrest of tumor cells, presumably tumor-endothelium interaction, while Ar(DRGDS)₃ achieved inhibition of tumor invasion into basement membrane at later steps of the cascade, consequently leading to inhibition of metastasis. Thus, tumor-cell arrest in lungs in the metastatic processes must be precisely and properly controlled by different adhesion molecules at different stages, which are similar to those observed in leukocyte-endothelium interaction. © 1996 Wiley-Liss, Inc.