Requirement of Ras/MAPK pathway activation by transforming growth factor beta for transforming growth factor beta 1 production in a Smad-dependent pathway

Our previous results have shown that transforming growth factor beta (TGFbeta) rapidly activates Ras, as well as both ERKs and SAPKs. In order to address the biological significance of the activation of these pathways by TGFbeta, here we examined the role of the Ras/MAPK pathways and the Smads in TGFbeta(3) induction of TGFbeta(1) expression in untransformed lung and intestinal epithelial cells. Expression of either a dominant-negative mutant of Ras (RasN17) or a dominant-negative mutant of MKK4 (DN MKK4), or addition of the MEK1 inhibitor PD98059, inhibited the ability of TGFbeta(3) to induce AP-1 complex formation at the TGFbeta(1) promoter, and the subsequent induction of TGFbeta(1) mRNA. The primary components present in this TGFbeta(3)-inducible AP-1 complex at the TGFbeta(1) promoter were JunD and Fra-2, although c-Jun and FosB were also involved. Furthermore, deletion of the AP-1 site in the TGFbeta(1) promoter or addition of PD98059 inhibited the ability of TGFbeta(3) to stimulate TGFbeta(1) promoter activity. Collectively, our data demonstrate that TGFbeta(3) induction of TGFbeta(1) is mediated through a signaling cascade consisting of Ras, the MAPKKs MKK4 and MEK1, the MAPKs SAPKs and ERKs, and the specific AP-1 proteins Fra-2 and JunD. Although Smad3 and Smad4 were not detectable in TGFbeta(3)-inducible AP-1 complexes at the TGFbeta(1) promoter, stable expression of dominant-negative Smad3 could significantly inhibit the ability of TGFbeta(3) to stimulate TGFbeta(1) promoter activity. Transient expression of dominant-negative Smad4 also inhibited the ability of TGFbeta(3) to transactivate the TGFbeta(1) promoter. Thus, although the Ras/MAPK pathways are essential for TGFbeta(3) induction of TGFbeta(1), Smads may only contribute to this biological response in an indirect manner.     

Inhibition of TGFbeta1-mediated PAI-1 induction by oltipraz through selective interruption of Smad 3 activation

Transforming growth factor-beta1 (TGFbeta1) induces plasminogen activator inhibitor-1 (PAI-1) as a major target protein. PAI-1 is associated with fibrosis, thrombosis, and metabolic disorders. TGFbeta1 induces PAI-1 via phosphorylation and nuclear translocation of Smads. Oltipraz inhibits TGFbeta1 expression and also regenerates cirrhotic liver. Nevertheless, whether oltipraz modulates TGFbeta1-mediated cell signaling is unclear. First, this study examined the effect of oltipraz on PAI-1 expression in cirrhotic rat liver. The cells immunochemically stained with anti-PAI-1 antibody accumulated around and within fibrous nodules in cirrhotic liver, which was notably decreased by oltipraz treatment. Next, whether oltipraz inhibits TGFbeta1-mediated Smads activation or Smad-mediated PAI-1 induction was determined in L929 fibroblasts. Oltipraz inhibited the ability of TGFbeta1 to induce PAI-1, as indicated by repression of TGFbeta1-mediated luciferase induction from the plasmid comprising the human PAI-1 promoter and of TGFbeta1-induced Smad-DNA-binding activity. TGFbeta1 induced nuclear transport of receptor-regulated Smad 2 and Smad 3, of which oltipraz selectively inhibited the transport and phosphorylation of Smad 3, thereby reducing formation of Smad 3/4 complex in the nucleus. In summary, oltipraz inhibits PAI-1 induction via a decrease in the formation of Smad 3/4 complex due to selective interruption of Smad 3 activation, indicating that oltipraz regulates the cellular responses downstream of ligand-activated TGFbeta1 receptor.