Reaction of lysyl oxidase with soluble protein substrates: Effect of neutral salts

Abstract

Soluble proteins released into the medium of aortic tissues in culture behave as substrates for the enzyme lysyl oxidase. The reaction shows an unusual dependence on the concentration of neutral salts in the assay medium. Practically no enzyme activity was observed in Tris-HCl, 0.005 m, pH 7.6 buffer. However, supplementing the buffer with high concentrations of KCl, KBr, NaCl, and (NH 4) 2SO 4 (in decreasing order of effectiveness) accelerated velocities as much as 10-fold. CaCl 2, KSCN, and KI at increasing concentrations became strongly inhibitory. β-Aminopropionitrile, a specific inhibitor of lysyl oxidase, effectively blocked the catalysis in low and high KCl. The salt-stimulated effects on lysyl oxidase activity were not as noticeable when insoluble proteins were used as substrates. Kinetic studies employing double reciprocal plots revealed that high KCl concentrations (2.0 m) raised the maximum velocity of the reaction but did not alter the apparent K m . Thus high salt concentrations did not affect the binding of the soluble substrate to the enzyme. In high salts, however, more radioactive substrate proteins appeared to bind to the enzyme, suggesting that the high salt environment increases the fraction of the total enzyme potentially capable of binding to and catalyzing a reaction with the substrate.