TGF beta isoforms and decorin gene expression are modified in fibroblasts obtained from non-syndromic cleft lip and palate subjects

Interaction between extracellular matrix (ECM) and cytokines is thought to be crucial for palatal development. The localization of transforming growth factors (TGF alpha and TGF beta isoforms) in craniofacial tissues suggests that they carry out multiple functions during development. In the present report, we studied TGF alpha, TGF beta(1), and TGF beta(3) expressions and their effects on ECM macromolecule production of normal and cleft palatal f ibroblasts in vitro, to investigate the mechanisms by which the phenotypic modulation of fibroblasts occurs during the cleft palate process. The resul ts indicated that, while TGF alpha mRNA was not evidenced in CLP or normal fibroblasts, a reduced TGF beta(1) hybridization signal was detected in CLP fibroblasts. In addition, these secreted more active TGF beta(3) than TGF beta(1), as evaluated in a biological assay. The CLP phenotype, which diffe red from the normal one because of its higher PG decorin expression and gre ater production of GAG and collagen, was further modified by the addition o f growth factors. In fact, in CLP fibroblasts, TGF alpha and TGF beta(1) do wn-regulated PG decorin transcript, TGF beta(1) increased collagen and GAG in both cellular and extracellular compartments, and TGF beta(3) promoted s ecretory processes of cells. In conclusion, the data represent the first re port in a human model in vitro that TGF beta(1) and beta(3) are differently expressed and are correlated to the CLP phenotype. Thus, strength is given to the hypothesis that TGF beta isoforms are the potential inducers of phe notypic expression in palatal fibroblasts during development and that an au tocrine growth factor production mechanism may be responsible for the pheno typic modifications.