TGF-beta 1 at 15 ng/ml for 24 hours inhibited bFGF-induced DNA synthesis in cardiac fibroblasts, coinciding with phenotypic modulation and the expression of sarcomeric actin mRNA.
Does TGF-beta 1 regulate the proliferative capacity and phenotypic modulation of cardiac fibroblasts?
TGF-beta 1 regulates the proliferative capacity and phenotypic modulation of cardiac fibroblasts in vitro, suggesting a role in cardiac remodeling.
Cardiac fibroblasts constitute greater than 90% of the non-myocyte cells in the heart. Previously, it was established that cardiac fibroblasts are predisposed to transformation into a phenotype with muscle-specific features and that transforming growth factor-beta 1 (TGF-beta 1) is a specific inducer of this event. In this study the hypothesis that TGF-beta 1-induced phenotypic modulation of cardiac fibroblasts is associated with their altered proliferative capacity is tested. Therefore the effects of TGF-beta 1 on DNA synthesis in cardiac fibroblasts under normal conditions of cell culture and in response to a potent mitogen, basic fibroblasts growth factor (bFGF) were determined. The results showed that TGF-beta 1 at 15 ng/ml (a concentration that induces fibroblast "transformation") had a regulatory effect on proliferative capacity of cardiac fibroblasts which varied as the function of cell density in culture. In subconfluent and confluent cultures, pre-treatment of cardiac fibroblasts with TGF-beta 1 for 24 h resulted in a dramatic shift in the bFGF-induced stimulation of DNA synthesis. TGF-beta 1-induced inhibition of DNA synthesis in cardiac fibroblasts coincided with their phenotypic modulation as evidenced by the expression of sarcomeric actin mRNA and morphological changes. Cross-linking studies with 125I-labeled TGF-beta 1 showed the presence of conventional types I, II and III TGF-beta 1 receptor complexes on cardiac fibroblasts and their binding to TGF-beta 1 under the experimental conditions. In summary, these data indicate that the proliferative capacity of cardiac fibroblasts is controlled by TGF-beta 1. They further suggest that the TGF-beta 1-induced phenotypic modulation of cardiac fibroblasts may be extended to include their altered proliferative capacity.
Sigel et al. (Sun,) conducted a other in In vitro cardiac fibroblasts. Transforming growth factor-beta 1 (TGF-beta 1) vs. Normal conditions / bFGF alone was evaluated on DNA synthesis. TGF-beta 1 at 15 ng/ml for 24 hours inhibited bFGF-induced DNA synthesis in cardiac fibroblasts, coinciding with phenotypic modulation and the expression of sarcomeric actin mRNA.