Neutrophil elastase in pressure ulcer fluid degrades fibronectin in the exudates

Background:  Pressure ulcers are classified as chronic wounds, which do not heal in a timely fashion. Fibronectin is condensed in granulation tissue, and essential glycoprotein of wound healing. It has been proposed that fibronectin degradation may be involved in delaying wound healing. We have investigated whether pressure ulcer fluid (PUF) contains degraded fibronectin. In addition, we tried to identify the proteinase which contributes to fibronectin degradation in PUF. Methods:  Fibronectin degradation and the presence of neutrophil elastase (NE) in PUF were determined by immunoblot analysis. Fibronectin degradation activity in PUF was determined in the presence of various proteinase inhibitors. NE activity was assessed using NE specific substrate. Results:  Immunoblot analysis revealed that degraded fibronectin was observed in PUF samples but not in acute wound fluid (AWF). The PUF contained a proteinase capable of degrading freshly added fibronectin and its activity in PUF was blocked by a broad‐spectrum serine proteinase inhibitor or sivelestat, a specific neutrophil elastase inhibitor, but not by metalloproteinase and cysteine proteinase inhibitors. Immunoblot analysis of PUF using an antineutrophil elastase antibody revealed that neutrophil elastase was detected as three bands at molecular weights of ∼30 kDa, ∼38 kDa, and ∼54 kDa, indicating that neutrophil elastase in the exudates existed not only as free monomers, but also in polymers or complexes with other molecules. Conclusion:  These results suggest that PUF contains a high level of neutrophil elastase which may be involved in the delay of the healing of pressure ulcer through the fibronectin degradation.