Regulation of connective tissue growth factor expression by prostaglandin E2

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Regulation of connective tissue growth factor expression by prostaglandin E₂

Dennis A. Ricupero, David C. Rishikof, Ping-Ping Kuang, Christine F. Poliks, and Ronald H. Goldstein

Pulmonary Center and Department of Biochemistry, Boston University School of Medicine, Boston 02118-2394; and Boston Veterans Affairs Medical Center, Boston, Massachusetts 02130

Transforming growth factor- $beta$ (TGF- $beta$ ) stimulates $alpha$ ₁(I) collagen mRNA synthesis in human lung fibroblasts through a mechanismthat is partially sensitive to cycloheximide and that may involvesynthesis of connective tissue growth factor (CTGF). Northernblot analyses indicate that TGF- $beta$ stimulates time- and dose-dependentincreases in CTGF mRNA. In TGF- $beta$ -stimulated fibroblasts, maximallevels of CTGF mRNA (3.7-fold above baseline) occur at 6 h. TheTGF- $beta$ -stimulated increase in CTGF mRNA was not blocked by cycloheximide.Nuclear run-on analysis indicates that TGF- $beta$ increases the CTGFtranscription rate. The TGF- $beta$ -stimulated increases in CTGF transcriptionand steady-state levels of CTGF mRNA are attenuated in prostaglandinE₂ (PGE₂)-treated fibroblasts. PGE₂ fails to attenuate luciferaseactivity induced by TGF- $beta$ in fibroblasts transfected with theTGF- $beta$ -responsive luciferase reporter construct p3TP-LUX. In aminoacid-deprived fibroblasts, PGE₂ and insulin regulate $alpha$ ₁(I) collagenmRNA levels without affecting CTGF mRNA levels. The data suggestthat the regulation of $alpha$ ₁(I) collagen mRNA levels by TGF- $beta$ andPGE₂ may function through both CTGF-dependent and CTGF-independentmechanisms.

transforming growth factor- $beta$ ; insulin; amino acid deficiency; type I collagen; human lung fibroblast

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