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| GROWTH-FACTORS, GROWTH-FACTOR RESPONSE ELEMENTS, AND THE CARDIAC PHENOTYPE |
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| Author(s): SCHNEIDER MD, MCLELLAN WR, BLACK FM, PARKER TG |
| Source: BASIC RESEARCH IN CARDIOLOGY Volume: 87 Pages: 33-48 Supplement: Suppl. 2 Published: 1992 |
| Times Cited: 36 References: 68 |
| Abstract: Fibroblast growth factors (FGF) and type beta-1 transforming growth factor (TGFbeta1) are pleiotropic regulatory peptides which are expressed in myocardium in a precise developmental and spatial program and are up-regulated, in the adult heart, by ischemia or a hemodynamic burden. The accumulation of trophic factors after aortic banding supports the hypothesis that autocrine or paracrine pathways might function to mediate, in part, the consequences of mechanical load. Our laboratory has demonstrated that cardiac muscle cells are targets for the action of peptide growth factors and, more specifically, that modulation of the cardiac phenotype by basic FGF (bFGF) and TGFbeta1 strongly resembles the induction of fetal cardiac genes - including skeletal alpha-actin (SkA), beta-myosin heavy chain, and atrial natriuretic factor - which are characteristic of pressure-overload hypertrophy. Unexpectedly, and despite effects like those of bFGF on five other cardiac genes, acidic FGF (aFGF) was found to repress, rather than stimulate, SkA transcription in neonatal cardiac muscle cells. The proximal 200 nucleotides of a heterologous SkA promoter were sufficient for basal tissue-specific transcription, for induction by bFGF, and for inhibition by aFGF. Thus, both positive and negative regulation by peptide growth factors can be localized to the proximal SkA promoter. Full promoter activity required each of three CC[A/T]6GG motifs similar to the serum response element (SRE) for activation of the c-fos proto-oncogene, as previously shown for SkA transcription in a skeletal muscle background. The most proximal SRE, SRE1, was sufficient in the absence of other SkA promoter sequences for efficient tissue-specific expression in cardiac myocytes (versus cardiac fibroblasts), and was stimulated by bFGF to the same extent as the full-length promoter and endogeneous gene. Despite its ability to repress the SkA promoter, aFGF had no significant effect on SRE1. Both FGFs up-regulated the canonical fos SRE, to a comparable degree. Thus, SRE1 can discriminate between signals generated in cardiac myocytes by bFGF and aFGF. In cardiac myocyte extracts, two predominant proteins contact SRE1: serum response factor (SRF) and a second protein, F-ACT-1. Thus, serum response factor and F-ACT-1 are candidate trans-acting factors for basal transcription of the SkA gene in cardiac muscle cells and for induction of SkA by bFGF and, potentially, other trophic signals. |
| Document Type: Article |
| Language: English |
| Reprint Address: SCHNEIDER, MD (reprint author), BAYLOR COLL MED, DEPT MED, MOLEC CARDIOL UNIT, 1 BAYLOR PLAZA, ROOM 506 C, HOUSTON, TX 77030 USA |
Addresses:
1. BAYLOR COLL MED, DEPT MOLEC PHYSIOL & BIOPHYS, HOUSTON, TX 77030 USA
2. BAYLOR COLL MED, DEPT CELL BIOL, HOUSTON, TX 77030 USA
3. UNIV TORONTO, SCH MED, CTR CARDIOVASC RES, TORONTO M5S 1A1, ONTARIO CANADA |
| Publisher: DR DIETRICH STEINKOPFF VERLAG, C/O SPRINGER-VERLAG, HEIDELBERGER PLATZ 3, 1000 BERLIN 33, GERMANY |
| Subject Category: Cardiac & Cardiovascular Systems |
| IDS Number: KQ212 |
| ISSN: 0300-8428 |
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