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1. Connective tissue growth factor expression and induction by transforming growth factor-β is abrogated by simvastatin via a Rho signaling mechanism

Author

Monica A. Spiteri and Keira L. Watts

Subjects

rho GTP-Binding Proteins, Pulmonary and Respiratory Medicine, Simvastatin, Physiology, medicine.medical_treatment, Connective tissue, Biology, Cell Line, Immediate-Early Proteins, Mediator, Downregulation and upregulation, Transforming Growth Factor beta, Physiology (medical), medicine, Humans, Lung, integumentary system, Reverse Transcriptase Polymerase Chain Reaction, Growth factor, Connective Tissue Growth Factor, Cell Biology, Fibroblasts, Recombinant Proteins, Insulin-Like Growth Factor Binding Proteins, CTGF, medicine.anatomical_structure, Gene Expression Regulation, Cell culture, Cancer research, Intercellular Signaling Peptides and Proteins, medicine.drug, Transforming growth factor

Abstract

Connective tissue growth factor (CTGF), a potent profibrotic mediator, acts downstream and in concert with transforming growth factor (TGF)-β to drive fibrogenesis. Significant upregulation of CTGF has been reported in fibrogenic diseases, including idiopathic pulmonary fibrosis (IPF), and is partly responsible for associated excessive fibroblast proliferation and extracellular matrix deposition, but no effective therapy exists for averting such fibrogeneic events. Simvastatin has reported putative antifibrotic actions in renal fibroblasts; this study explores such actions on human IPF-derived and normal lung fibroblasts and examines associated driving mechanisms. Simvastatin reduces basal CTGF gene and protein expression in all fibroblast lines, overriding TGF-β induction through inhibition of the cholesterol synthesis pathway. Signaling pathways driving simvastatin's effects on CTGF/TGF-β interaction were evaluated using transient reporter transfection of a CTGF promoter construct. Inhibition of CTGF promoter activity by simvastatin was most marked at 10 μM concentration, reducing activity by 76.2 and 51.8% over TGF-β-stimulated cultures in IPF and normal fibroblasts, respectively. We also show that geranylgeranylpyrophosphate (GGPP), but not farnesylpyrophosphate, induces CTGF promoter activity following simvastatin inhibition by 55.3 and 31.1% over GGPP-negative cultures in IMR90 and IPF-derived fibroblasts, respectively, implicating small GTPase Rho involvement rather than Ras in these effects. Indeed, the specific Rho inhibitor C3 exotoxin significantly ( P < 0.05) suppressed TGF-β-induced CTGF promoter activity in transfected lung fibroblasts, a finding further supported by transfection of dominant-negative and constitutively active RhoA constructs, thus demonstrating that simvastatin through a Rho signaling mechanism in lung fibroblasts can modulate CTGF expression and interaction with TGF-β.

Published

2004