Macromolecular chromogenic substrates for measuring proteinase activity

Background: Proteinase activities are often measured using chromogenic substrates that are much smaller than physiological substrates.

Methods: The hydrodynamic size of macromolecular substrates (macrosubstrates) prepared by linking small chromogenic substrates to polyethylene glycol was determined by gel filtration. Efficiency of macrosubstrate cleavage by proteinases and alpha(2)-macroglobulin-proteinase complexes was monitored spectrophotometrically.

Results: Macrosubstrates had hydrodynamic radii of approximately 20 A, similar to proteins with a molecular weight of 18,000. Different macrosubstrates served as efficient substrates for chymotrypsin, trypsin, and Thrombin. Linking small substrates to a polymer variably affected substrate efficiency, with the impact on activity ranging from a 60-fold decrease to a 30-fold increase. Proteinases complexed with alpha(2)-macroglobulin had approximately 10-fold lower activity vs macrosubstrates than small substrates.

Conclusions: Macrosubstrates are efficient substrates that allow decreased measurement of sterically hindered proteinase molecules such as alpha(2)-macroglobulin-proteinase complexes. Thus, macrosubstrates may provide more accurate functional assays of proteinases such as coagulation factors.