Abstract

Synthesis of the major negative physiologic regulator of plasmin activation [plasminogen activator inhibitor type-1 (PAI-1)] is elevated during progressive cellular senescence, in premature aging disorders (e.g., Werner's syndrome), and in conditions associated with tissue fibrosis and excessive fibrin accumulation (e.g., sclerosis, keloid formation). Dermal fibroblasts derived from Werner's patients as well as from keloid lesions markedly overexpress PAI-1 mRNA transcripts compared to normal skin fibroblasts. Such cell type-related differences in steady-state PAI-1 mRNA content, and variances in the relative abundance of the 3.0- compared to the 2.2-kb PAI-1 mRNA species, served to discriminate normal from Werner's and keloid fibroblasts. This disparity in PAI-1 mRNA levels paralleled transcriptional activities of the PAI-1 gene;de novosynthesis of PAI-1 protein among the three cell types, moreover, closely approximated the respective differences in total PAI-1 mRNA content. Despite the markedly elevated levels of PAI-1 mRNA and protein evident in newly confluent keloid fibroblasts, these cells effectively suppressed PAI-1 synthesis (as did normal dermal fibroblasts) upon culture in serum-free medium. Werner's syndrome skin fibroblasts, in contrast, continued to maintain high-level PAI-1 expression even after 3 days of growth arrest. Adhesion-mediated attenuation of serum-stimulated PAI-1 expression, a characteristic of normal cells involving sequences which mapped to the distal 5′ flanking region of the PAI-1 gene, was retained in keloid but not Werner's fibroblasts. Collectively, these data suggest that (1) specific controls on PAI-1 gene expression are fundamentally different between these two clinically significant high PAI-1-synthesizing cell types and (2) the localized keloid may define the emergence of a distinct profibrotic dermal fibroblastoid phenotype in genetically predisposed individuals.

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