Interaction between leukocyte elastase and elastin: quantitative and catalytic analyses

Abstract

Solubilization of elastin by human leukocyte elastase (HLE) cannot be analyzed by conventional kinetic methods because the biologically relevant substrate is insoluble and the concentration of enzyme–substrate complex has no physical meaning. We now report quantitative measurements of the binding and catalytic interaction between HLE and elastin permitted by analogy to receptor–ligand systems. Our results indicated that a limited and relatively constant number of enzyme binding sites were available on elastin, and that new sites became accessible as catalysis proceeded. The activation energies and solvent deuterium isotope effects were similar for catalysis of elastin and a soluble peptide substrate by HLE, yet the turnover number for HLE digestion of elastin was 200–2000-fold lower than that of HLE acting on soluble peptide substrates. Analysis of the binding of HLE to elastin at 0°C, in the absence of significant catalytic activity, demonstrated two classes of binding sites ( K d=9.3×10 −9 M and 2.5×10 −7 M). The higher affinity sites accounted for only 6% of the total HLE binding capacity, but essentially all of the catalytic activity, and dissociation of HLE from these sites was minimal. Our studies suggest that interaction of HLE with elastin in vivo may be very persistent and permit progressive solubilization of this structurally important extracellular matrix component.