Long-term chemotaxis studies on adherent cells: effect of platelet-derived growth factor-BB on human vascular smooth muscle cell migration.

Several chemotaxis methods have been developed which allow the study of different aspects of cell migration. The major limitation of such methods is the lack of a sustained chemotactic signal. Long-term chemotaxis phenomena which are known to take place in vivo have remained largely uninvestigated. Ways to maintain sustained chemotactic signals were sought and the used to investigate the long-term chemotactic effect of platelet-derived growth factor BB (PDGF-BB) on human vascular smooth muscle cells (HVSMC). PDGF-BB was adsorbed onto microcarrier beads and then embedded in agar. PDGF-BB diffusion was slow and a high and sustained local concentration was maintained in the agar. When PDGF-BB-loaded beads embedded in agar were placed at the edge of a tissue culture dish with HVSMC plated in the center, preferential movement was observed in the direction of the PDGF-BB source. This method was subsequently used to study directional movement of HVSMC arising from explants. This report demonstrates that PDGF-BB if present in an anisotropic concentration induces directional cell movement from such explants. By allowing the study of the effect of sustained chemotactic signals upon cultured cells or cells arising from explants, this method may provide a suitable model for investigating in vivo chemotaxis phenomena.