Proteolytic Cleavage of Fibrinogen: Amplification of Its Surfactant Inhibitory Capacity

Abstract

Severe deterioration of surfactant function is noted under conditions of plasma protein leakage into the alveolar space; moreover, fibrinogen has previously been reported to possess strong surfactant inhibitory capacity. Dissolution of alveolar deposits of fibrinogen and fibrin (e.g., hyaline membranes) requires enzymatic degradation by the plasminogen/plasmin system or by leukocyte-derived proteases. We investigated the surfactant inhibitory properties of differently prepared sets of fibrinogen cleavage products. Proteolysis was performed with plasmin, with predominant split products D (mol wt 85,000) and E (mol wt 50,000). In addition, fibrinogen was cleaved by leukocyte elastase and trypsin, with fragments ranging mainly between mol wt of 30,000 and 50,000. To provide split products of even lower molecular weight, fibrinogen was incubated sequentially with trypsin and endoproteinase (split products < mol wt 25,000). Natural surfactant extracts used in clinical replacement studies (CLSE, Alveofact, Curosurf, Survanta) as well as an apoprotein-based phospholipid mixture (PLM-C/B; DPPC:PG:PA = 68.5:22.5:9 with 2% [wt/wt] nonpalmitoylated recombinant human SP-C and 1% [wt/wt] natural bovine SP-B) were employed. Experiments were performed in a pulsating bubble surfactometer (standard phospholipid concentration 2 mg/ml) with assessment of surfactant activity measuring adsorption and dynamic surface tension. Fibrinogen caused dose-dependent, severe deterioration of the surface activities of Curosurf and Survanta, whereas CLSE, Alveofact, and PLM-C/B were only moderately affected up to protein-surfactant ratios of 4:1.(ABSTRACT TRUNCATED AT 250 WORDS)