STUDIES ON HUMAN PLASMA alpha2-MACROGLOBULIN-ENZYME INTERACTIONS: EVIDENCE FOR PROTEOLYTIC MODIFICATION OF THE SUBUNIT CHAIN STRUCTURE

doi:10.1084/jem.138.3.508

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STUDIES ON HUMAN PLASMA $alpha$ ₂-MACROGLOBULIN-ENZYME INTERACTIONS : EVIDENCE FOR PROTEOLYTIC MODIFICATION OF THE SUBUNIT CHAIN STRUCTURE

Peter C. Harpel ¹

¹ From the Department of Medicine, Division of Hematology, The New York Hospital-Cornell Medical Center, New York 10021

Human plasma $alpha$ ₂-macroglobulin is an inhibitor of circulatingproteases that function in hemostatic and inflammatory reactionsbut the biochemical nature of its interaction with these enzymesis not well defined. This investigation has found that $alpha$ ₂-macroglobulinis comprised of subunit chains of 185,000 molecular weight asanalyzed by electrophoresis in polyacrylamide gels containingsodium dodecyl sulfate. Trypsin, thrombin, plasmin, and plasmakallikrein in amounts completely bound to $alpha$ ₂-macroglobulin attackedone region in the subunit chain producing a single derivativewith a molecular weight of 85,000 indicating that hydrolysisoccurred at or near the center of the parent chain. The proteolyticderivative was also identified in an $alpha$ ₂-macroglobulin preparationfrom plasma incubated with the plasminogen activator, urokinase. $alpha$ ₂-macroglobulin functionally capable of binding enzyme appearedto be required both for limiting tryptic hydrolysis and forconfining the concentration dependent increase in the derivativechain to the 1st min of incubation since acid-denatured $alpha$ ₂-macroglobulinthat failed to bind trypsin was extensively degraded. Threederivative chains resulted from the interaction of $alpha$ ₂-macroglobulinwith chymotrypsin demonstrating the presence of at least twochymotrypsin susceptible regions in the precursor chain. Reductionof the $alpha$ ₂-macroglobulin-enzyme mixture was required for the identificationof the derivative subunit chains establishing that these cleavageproducts were covalently linked to the parent molecule by disulfidebridges. Thus, $alpha$ ₂-inacroglobulin acts as a substrate for circulatingproteases, a finding which may also pertain to the mechanismof action of other plasma enzyme inhibitors.

Submitted on May 16, 1973

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