New Approaches to Tissue Regeneration and Repair

Abstract

Several Heparin Binding Growth Factors (HBGFs) are thought to play a key role in the natural processes of tissue regeneration or repair after being released by neighbouring, inflammatory or circulating cells as well as from extracellular matrix associated heparan sulfate proteoglycosaminoglycans. In order to better understand how the bioavailability of these HBGFs can take part in the regulation of the wound healing processes, we have studied the healing effect of various chemically substituted dextrans (CMDBS) selected for their affinity for HBGFs, alone and in association with HBGFs. The CMDBS was obtained by substitution of methylcarboxylic (CM), benzylamide (B) and benzylamine sulfonate (S) groups in proportion of 83%, 23% and 13% respectively for CMDBS K that we have further used (Mauzac et al., 1985 Biomaterials. 6: 61-63). CMDBS K could 1: potentiate the biological activity of 1 or 2 FGFs, 2: protect 1 and 2 FGFs against thermal or pH inactivation, 3: protect a and b FGFs against proteolytic degradation (Tardieu et al., 1992 J. Cell. Physiol. 150: 194-203). CMDBS K was tested alone in cutaneous and bone wound healing models and for its ability to stabilize FGFs. Rats were punched and skin regeneration was studied by morphometric and histological analysis. The wounds (6 mm diameter) were filled with collagen plaster alone or soaked with CMDBS. CMDBS K in collagen plaster was able to induce a remarkable effect both on the kinetics and on the quality of the restored skin. These results suggest that endogenous growth factors naturally released during the regeneration process could be trapped, protected and released by CMDBS.(ABSTRACT TRUNCATED AT 250 WORDS)