Non-enzymic glycation of human extracellular superoxide dismutase.

The secretory enzyme extracellular superoxide dismutase (EC-SOD) is in plasma heterogenous with regard to heparin-affinity and can be divided into three fractions, A that lacks affinity, B with intermediate affinity and C with high affinity. The C fraction forms an equilibrium between the plasma phase and heparan sulphate proteoglycan on the surface of the endothelium. In vitro EC-SOD C could be time-dependently glycated. The enzymic activity was not affected in glycated EC-SOD, but the high heparin-affinity was lost in about half of the studied glycated fraction. Addition of heparin decreased the glycation in vitro, and EC-SOD C modified with the lysine-specific reagent trinitrobenzenesulphonic acid could not be glycated in vitro. The findings suggest that the glycation sites are localized rather far away from the active site and may occur on lysine residues in the heparin-binding domain in the C-terminal end of the enzyme. The proportion of glycated EC-SOD in serum of diabetic patients was considerably higher than in normal subjects. Of the subfractions, EC-SOD B was by far the most highly glycated, followed by EC-SOD A. EC-SOD C was glycated only to be a minor extent. The findings suggest that glycation is one of the factors that contribute to the heterogeneity in heparin-affinity of plasma EC-SOD. Since this phenomenon is increased in diabetes, the cell-surface-associated EC-SOD may be decreased in this disease, increasing the susceptibility of cells to superoxide radicals produced in the extracellular space.