Abstract

The antiangiogenic activity of rPAI-1(23), a truncated plasminogen activator inhibitor-1 (PAI-1) protein, induces vasa vasorum collapse and significantly reduces plaque area and plaque cholesterol in hypercholesterolemic low-density lipoprotein receptor-deficient/apolipoprotein B48-deficient mice. The objective of this study was to examine rPAI-1(23)-stimulated mechanisms that cause vasa vasorum collapse. The rPAI-1(23) protein opposed PAI-1 antiproteolytic function by stimulating a 1.6-fold increase in plasmin activity compared with the saline-treated counterpart. The increased proteolytic activity corresponded to increased activity of matrix metalloproteinase-3 and degradation of fibrin(ogen), nidogen, and perlecan in the adventitia of descending aortas. PAI-1 activity was reduced by 48% in response to rPAI-1(23); however, PAI-1 protein expression levels were similar in the rPAI-1(23)- and saline-treated hypercholesterolemic mice. Coimmunoprecipitation assays demonstrated a novel PAI-1-plasminogen complex in protein from the descending aorta of rPAI-1(23)- and saline-treated mice, but complexed PAI-1 was 1.6-fold greater in rPAI-1(23)-treated mice. Biochemical analyses demonstrated that rPAI-1(23) and PAI-1 binding interactions with plasminogen increased plasmin activity and reduced PAI-1 antiproteolytic activity. We conclude that rPAI-1(23) causes regression or collapse of adventitial vasa vasorum in hypercholesterolemic mice by stimulating an increase in plasmin activity. The rPAI-1(23)-enhanced plasmin activity was achieved through a novel mechanism by which rPAI-1(23) and PAI-1 bound plasminogen in a cooperative manner to increase plasmin activity and reduce PAI-1 activity.

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