Conductimetry: a new tool for studying inhibition of elastolysis.

The conductimetric method was applied to the measurement of human leukocyte elastase activity, using insoluble elastin as a substrate. From conductance changes, initial rates of elastolysis were derived. A linear relationship of enzyme activity with enzyme concentration was demonstrated up to 400nM of enzyme, for three different substrates.

Elastolysis of normal and partially cross-linked elastin.

Rate of elastolysis by pancreatic and leukocyte elastases of normal and copper deficient porcine aortic elastins were measured using a conductimetric method. Kinetics obey to Michaelis-Menten model for both substrates and enzymes. KM and Vmax values derived from Lineweaver-Burk plots indicate that, if a near uniformity exists in KM, differences were observed in catalytic rates, kcat increasing approximately 40% for copper deficient elastin elastolysis by leukocyte elastase.

Ca2+ and Mg2+ protection against thermal denaturation of pancreatic elastase.

Thermal denaturation of porcine pancreatic elastase was studied by difference spectrophotometry. At 293 nm, and pH 8.0, the thermal transition of elastase occurs with a midpoint temperature (Tm) of (58.