High plasma levels of plasminogen activator inhibitor type-1 (PAI-1), the principal inhibitor of the fibrinolytic system, have been associated with thrombotic and arterial disease. To study PAI-1 expression in healthy and atherosclerotic human arteries, a detailed analysis was made by light and electron microscopy immunocytochemistry and by in situ hybridization. In healthy arteries PAI-1 was found both at the level of endothelial cells and of smooth muscle cells (SMCs) of the arterial media. In early atherosclerotic lesions PAI-1 was also detected in intimal SMCs and in extracellular areas in association with vitronectin. Immunogold analysis by electron microscopy revealed PAI-1 in vesicular structures in endothelial cells and in SMCs with normal or foam cell characteristics. In advanced atheromatous plaques, PAI-1 mRNA expression in SMCs within the fibrous cap was increased compared with SMCs located in the adjacent media or in normal arterial tissue. PAI-1 mRNA was also detected in macrophages located at the periphery of the necrotic core. The increased synthesis of PAI-1 by cellular components of the atherosclerotic plaque and the extracellular accumulation of PAI-1 may contribute to the thrombotic complications associated with plaque rupture and possibly play a role in the accumulation of extracellular matrix deposits.
Gene transcription rates and mRNA levels of plasminogen activator inhibitor type 2 (PAI-2) are markedly induced by the tumor promoting agent phorbol 12-myristate 13-acetate (PMA) in human HT1080 fibrosarcoma cells. To identify promoter elements required for basal-, and phorbol ester-inducible expression, deletion mutants of the PAI-1 promoter fused to the chloramphenicol acetyl transferase (CAT) reporter gene, were transiently expressed in HT1080 cells. Constitutive CAT activity was expressed from constructs containing more than 215 bp of promoter sequence, whereas deletion to position -91 bp abolished CAT gene expression. Treatment of transfected cells with PMA resulted in a three- to ten-fold increase in CAT expression from all constructs except from the construct shortened to position -91. DNAse1 protection analysis of the promoter region between -215 and the transcription initiation site revealed numerous protected regions, including two AP1-like binding sites (AP1a and AP1b) and one CRE-like element. Site-directed mutagenesis of the AP1a site or of the CRE-like site resulted in the loss of basal CAT activity and abolished the PMA effect, whereas mutagenesis of AP1b only partially inhibited basal and PMA-mediated expression. Our results suggest that the PAI-2 promoter contains at least two elements required for basal gene transcription and PMA-mediated induction.
SummaryPorcine models are, among other animal models, very suitable for in vivo investigations in the vascular field especially with respect to the possible relationship between atherosclerosis and thrombosis. In order to use this model to define the in vivo role of PAI-1, the characterization of porcine PAI-1 and its availability for the generation of immunological tools are a prerequisite. Porcine plasminogen activator inhibitor-1 (poPAI-1) cDNA was isolated from a cDNA library prepared from cultured porcine aortic cells and characterized in comparison with PAI-1 cDNA’s from other species including human, bovine, rabbit, rat and murine. Subsequently the DNA sequence coding the mature protein was cloned into an appropriate vector for expression in Escherichia coli and recombinant porcine PAI-1 was purified and characterized. On SDS-PAGE the apparent molecular weight was estimated to be 45 kDa, identical to the molecular weight of human PAI-1. The purified recombinant porcine PAI-1 (rpoPAI-1) had a specific activity of 508,800 ± 800 U/mg (mean ± SD, n = 3) towards human tissue-type plasminogen activator (ht-PA) and a functional half-life in vitro of 2.1 ± 0.8 h (n = 3). Incubation with a two fold molar excess of ht-PA (n = 3) or human urokinase-type plasminogen activator (hu-PA, n = 2) followed by analysis by SDS-PAGE revealed reaction products corresponding to active (71 ± 7% resp. 96 ± 3.6%), latent (12 ± 0.4% resp. 2.6 ± 2.4%) and substrate (16.6 ± 6.8% resp. 1.5 ± 1.3) forms. Inactivated samples of porcine PAI-1 could be reactivated with guanidinium chloride up to 52% of its original specific activity towards t-PA and u-PA. The second order rate constant of inhibition of ht-PA was 1.64 ± 0.37 1 07M-1 s-1 (n = 9). In gel filtration rpoPAI-1 in buffer eluted at a volume corresponding to 24 kDa, whereas in the presence of porcine plasma, the molecular form containing PAI-1 activity eluted at a volume corresponding to 330 kDa, presumably as a consequence of binding of active PAI-1 to vitronectin.Taken together, these data demonstrate that no obvious functional differences exist between human and porcine PAI-1.
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