Abstract
Fibroblast growth factor (FGF)-1 binding to cell surface receptors stimulates an intracellular signaling pathway that ultimately promotes the transcriptional activation of specific genes. We have used a mRNA differential display method to identify FGF-1-inducible genes in mouse NIH 3T3 fibroblasts. Here, we report that one of these genes, FGF-regulated (FR)-19, is predicted to encode a member of the transcriptional enhancer factor (TEF)-1 family of structurally related DNA-binding proteins. Specifically, the deduced FR-19 amino acid sequence has approximately89, 77, and 68% overall identity to chicken TEF-1A, mouse TEF-1, and mouse embryonic TEA domain-containing factor, respectively. Gel mobility shift experiments indicate that FR-19, like TEF-1, can bind the GT-IIC motif found in the SV40 enhancer. The FR-19 gene maps in the distal region of mouse chromosome 6, and analysis of several FR-19 cDNA clones indicates that at least two FR-19 isoforms may be expressed from this locus. FGF-1 induction of FR-19 mRNA expression in mouse fibroblasts is first detectable at 4 h after FGF-1 addition and is dependent on de novo RNA and protein synthesis. FGF-2, calf serum, platelet-derived growth factor-BB, and phorbol 12-myristate 13-acetate can also induce FR-19 mRNA levels. We have also found that FR-19 mRNA expression increases during mouse C2C12 myoblast differentiation in vitro. The FR-19 gene is expressed in vivo in a tissue-specific manner, with a relatively high level detected in lung. These results indicate that increased expression of a TEF-1-related protein may be important for both mitogen-stimulated fibroblast proliferation and skeletal muscle cell differentiation.
Highlights
Fibroblast growth factor (FGF)-1 binding to cell surface receptors stimulates an intracellular signaling pathway that promotes the transcriptional activation of specific genes
The results described above indicate that FR-19 is an FGF-1-inducible delayed-early response gene in NIH 3T3 fibroblasts
The binding of polypeptide growth factors to cell surface receptors triggers a cascade of intracellular biochemical responses, including the transcriptional activation of specific nuclear genes [61, 62]
Summary
Vol 271, No 23, Issue of June 7, pp. 13786 –13795, 1996 Printed in U.S.A. Identification of a Murine TEF-1-related Gene Expressed after Mitogenic Stimulation of Quiescent Fibroblasts and during Myogenic Differentiation*. We report that one of these genes, FGF-regulated (FR)-19, is predicted to encode a member of the transcriptional enhancer factor (TEF)-1 family of structurally related DNA-binding proteins. The FR-19 gene is expressed in vivo in a tissue-specific manner, with a relatively high level detected in lung These results indicate that increased expression of a TEF-1-related protein may be important for both mitogen-stimulated fibroblast proliferation and skeletal muscle cell differentiation. (basic FGF) belong to a family of heparin-binding proteins that promote cellular proliferation, migration and differentiation [1, 2] They can stimulate vascular endothelial cell and smooth muscle cell mitogenesis in vivo [3,4,5,6,7] and are potent angiogenic factors (3, 4, 8 –10); they may play an important role in the pathogenesis of various diseases, including atherosclerosis, rheumatoid arthritis, and cancer. After the original submission of this manuscript, Yockey et al [42] reported the cDNA cloning and characterization of this same gene product, which they have named TEFR1
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