Heparin-carrying polystyrene to mediate cellular attachment and growth via interaction with growth factors.

Abstract

Various sugar-carrying polystyrenes (PSs), which consist of synthetic styrene and sugar moieties, are glycoconjugates that are able to attach to polymeric surfaces. Heparin-carrying PS (HCPS) is especially able to retain the binding of heparin-binding growth factors (GFs) such as vascular endothelial GF 165 (VEGF(165)) or fibroblast GF 2 (FGF-2). Human skin fibroblast cells, human coronary smooth muscle cells, and human coronary endothelial cells have good adherence to the HCPS-coated plate. The growth rate of fibroblast cells on HCPS-coated plates is higher than or comparable to fibronectin-coated, gelatin-coated, or tissue culture treated plates, and the HCPS coating inhibits the growth of smooth muscle cells. On the other hand, the growth rate of endothelial cells on HCPS-coated plates in the presence of either VEGF(165) or FGF-2 is comparable to that on fibronectin-coated, gelatin-coated, and tissue culture treated plates. Endothelial cells grow at a higher rate on HCPS-coated plates retained with either VEGF(165) or FGF-2 than on the other coated plates. These results indicate that growth of various cells can be controlled by the HCPS coating, thereby retaining the bioactivity of molecules such as heparin-binding GFs. Thus, HCPS-coated surfaces control selective growth of various cells.