UNIPROT:P06889 - FACTA Search

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To date, three mammalian TGF-beta isoforms have been identified, each encoded by different genetic loci. Through each is very similar in primary amino acid structure, there are clear differences both in the mature bioactive peptide region and in the latency-associated peptide, which could potentially confer differential biological specificity. As one route to investigate differential biological function in vivo we have used gene specific probes for in situ hybridization studies to examine the distribution of RNA transcripts during mammalian embryogenesis. Mouse embryos from 6 to 14.5 gestational age and human embryos from 32 to 57 days post-fertilization have been probed. A general conclusion from these studies is that each TGF-beta gene has a distinct, through overlapping, pattern of transcript distribution and that this pattern, in most cases, is conserved between mouse and man. We have focused on the biological function the TGF-betas play in certain epithelia and in cardiogenesis, which will be discussed in this presentation.
Mol Reprod Dev 1992 Jun
PMID:The role of TGF-beta s in mammalian development and neoplasia. 163 51

We have previously shown that TGF-beta 1 rapidly and reversibly inhibits ductal growth in vivo when administered by miniature slow-release plastic implants. A possible role for endogenous TGF-beta 1 was suggested by the observation that the normal gland displayed substantial, developmentally regulated levels of TGF-beta 1 transcripts and protein. These studies have now been extended to include the other two mammalian TGF-beta isoforms. When tested with slow-release plastic implants, TGF-beta 2 and TGF-beta 3 also caused disappearance of the proliferating mammary stem cell layer, with rapid involution of ductal end buds and cessation of glandular growth. None of the isoforms was active in inhibiting alveolar morphogenesis. We conclude that under the conditions of these tests, the three mammalian isoforms are functionally equivalent. However, striking differences in patterns of gene expression and in the distribution of immunoreactive peptides suggest that TGF-beta 2 was expressed only at low levels, and mainly during pregnancy. TGF-beta 3 was expressed in ductal stroma and epithelium, and was the only isoform detected in myoepithelial cells. Developing alveolar tissue and its associated ducts displayed striking TGF-beta 3 gene expression and immunostaining, which were greatly reduced during lactation. We are now investigating the possibility that the observed high levels of TGF-beta expression in pregnancy, particularly of TGF-beta 3, and the absence of substantial expression of any isoform during lactation, may indicate a role for the TGF-beta in regulating functional differentiation or the onset of milk secretion.
Mol Reprod Dev 1992 Jun
PMID:Regulation of mammary growth and function by TGF-beta. 163 52

A critical process during early heart development is the formation of mesenchymal cells which will contribute to valves and septa of the mature heart. These cells arise by an epithelial-mesenchymal transformation of endothelial cells in the atrioventricular (AV) canal and outflow tract areas of the heart. Adjacent endothelial cells in the atrium and ventricle remain epithelial. A three-dimensional collagen gel culture system has been exploited to examine the interactions that mediate this transformation. The AV canal myocardium produces a stimulus that is transmitted through an intervening extracellular matrix to the AV canal endothelium. This interaction is regionally specific, such that ventricular myocardium does not provide an adequate stimulus and ventricular endothelium does not respond to the AV canal myocardial stimulus. Exogenous TGF-beta 1 (or TGF-beta 2) can complement ventricular myocardium to produce transformation by AV canal endothelium. A blocking antibody, effective against several TGF-beta, prevents cell transformation. To identify the specific member of the TGF-beta family that functions in situ, antisense oligonucleotides for each of the numbered TGF-beta were topically added to AV canal explant cultures. Only the oligonucleotide targeted to TGF-beta 3 was an effective inhibitor of mesenchymal cell formation. Studies have been undertaken to localize specific mRNas by in situ hybridization and RNase protection assays. These assays have concentrated on the regional and temporal appearance of TGF-beta 2 and 3. Surprisingly, RNase protection assays with a TGF-beta 3 sense probe showed the presence of a transcript complementary to TGF-beta 3.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Reprod Dev 1992 Jun
PMID:TGF-beta 3-mediated tissue interaction during embryonic heart development. 163 53

The BMPs (bone morphogenetic proteins) are a group of related proteins originally identified by their presence in bone-inductive extracts of demineralized bone. By molecular cloning, at least six related members of this family have been identified and are called BMP-2 through BMP-7. These molecules are part of the TGF-beta superfamily, based on primary amino acid sequence homology, including the absolute conservation of seven cysteine residues between the TGF-betas and the BMPs. The BMPs can be divided into subgroups with BMP-2 and BMP-4 being 92% identical, and BMP-5, BMP-6, and BMP-7 being an average of about 90% identical. To examine the individual activities of these molecules, we are producing each BMP in a mammalian expression system. In this system, each BMP is synthesized as a precursor peptide, which is glycosylated, processed to the mature peptide, and secreted as a homodimer. These reagents have been used to demonstrate that single molecules, such as BMP-2, are capable of inducing the formation of new cartilage and bone when implanted ectopically in a rodent assay system. Whether each of the BMPs possesses the same inductive activities in an animal is the subject of ongoing research. Based on the chondrogenic and osteogenic abilities of the BMPs in the adult animal, the expression of the mRNAs for the BMPs has been examined in the development of the embryonic skeleton by in situ hybridization. These studies demonstrate that the BMP mRNAs are spatially and temporally expressed appropriately for the proteins involved in the induction and development of cartilage and bone in the embryonic limb bud.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Reprod Dev 1992 Jun
PMID:The bone morphogenetic protein family and osteogenesis. 163 54

The predominant effect of TGF-beta 1 on cell proliferation is inhibition. Earlier studies demonstrated that TGF-beta 1 inhibition of skin keratinocyte proliferation involves suppression of c-myc transcription and indirect evidence suggested that the protein product of the retinoblastoma gene (pRB) may be involved in this process. Skin keratinocytes transformed by SV40 and human papilloma virus-16 (HPV-16) or HPV-18 resisted growth inhibition and suppression of c-myc mRNA by TGF-beta. Transient expression of HPV-16 E7 gene, adenovirus E1A, and SV40 large T antigen (TAg) blocked the TGF-beta 1 suppression of c-myc transcription. Studies with transformation-defective mutants of E1A and TAg suggested that a cellular protein(s) that interacts with a conserved domain of the DNA tumor virus oncoproteins mediates TGF-beta 1 suppression of c-myc transcription and keratinocyte growth. Transient expression of pRB in skin keratinocytes repressed human c-myc promoter/CAT transcription as effectively as TGF-beta 1. The same c-myc promoter region, termed the TGF-beta Control Element (TCE), was required for regulation by both TGF-beta 1 and pRB. TCE bound a cellular protein of approximately 106 kDa and this binding was decreased by TGF-beta 1 treatment. Our data indicate that pRB can inhibit c-myc transcription and suggest the involvement of cellular factor(s) in addition to pRB in the TGF-beta 1 pathway for the suppression of c-myc transcription and growth inhibition.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Reprod Dev 1992 Jun
PMID:TGF-beta regulation of epithelial cell proliferation. 163 56

The TGF-beta's are multifunctional, pleiotropic molecules with major effects in control of cellular migration, cellular proliferation, and elaboration of extracellular matrix. Thus far, five distinct isoforms of TGF-beta have been described, each approximately 65-85% homologous and containing the characteristic 9 positionally conserved cysteine residues. Although the actions of the activated mature forms of the different isoforms on cells are qualitatively similar in most cases, there are a few examples of distinct activities. For example, TGF-beta's 1 and 3, but not TGF-beta 2, inhibit the growth of large vessel endothelial cells, and TGF-beta's 2 and 3, but not TGF-beta 1, inhibit the survival of cultured embryonic chick ciliary ganglionic neurons. In addition, selective targeting of the latent forms of the TGF-beta's is suggested by the observation that latent TGF-beta 2 is the prominent isoform found in body fluids such as amniotic fluid, breast milk, and the aqueous and vitreous humor of the eye; it is noteworthy in this regard that TGF-beta 2 is unique among various isoforms in that it lacks a RGD integrin-binding sequence in its precursor. The most dramatic differences in the TGF-beta isoforms are seen at the level of expression, where there is now a wealth of data demonstrating both spatially and temporally distinct expression of both the mRNAs and proteins in developing tissues, regenerating tissues, and in pathologic responses.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Reprod Dev 1992 Jun
PMID:Differential expression of the TGF-beta isoforms in embryogenesis suggests specific roles in developing and adult tissues. 163 57

The majority of renal cancers are thought to arise from the proximal tubule epithelium, but little is known about their etiology. In this investigation, we have established an in vitro model to study the transformation of these target cells using rat kidney proximal tubule epithelial cells (RPTE) transformed in defined medium with SV40-viral DNA. Selection by passaging cells onto plastic surfaces yielded a population of cells (SV-RPTE) that expressed keratin and vimentin along with SV40 large-T antigen. The cells were morphologically transformed and lost their differentiated character as determined by several RPTE markers. SV-RPTE cells grew in soft agar in serum-supplemented medium containing insulin, epidermal growth factor, and cholera toxin, but were unable to grow when serum and growth factors were not combined. Acidic and basic fibroblast growth factors (aFGF and bFGF) were unique since they were the only single factor that induced anchorage-independent growth in the presence of serum alone. Transforming growth factor-beta 1 (TGF-beta 1) was a potent inhibitor of anchorage-independent growth, but the inhibition was partially overcome by a combination of growth factors. The growth factor responses of SV-RPTE in monolayer cultures differed from those in soft agar; the cells were more sensitive to growth stimulation by insulin and insulin-like growth factor, neither of which stimulated anchorage-independent growth. SV-RPTE cells in monolayer cultures had also lost the sensitivity to growth inhibition by TGF-beta 1 characteristic of normal RPTE. The RPTE transformation model described here will be very useful for investigating the molecular basis and etiology of renal cancers. Furthermore, the data suggest that maintenance of the transformed phenotype by aFGF and bFGF and loss of negative growth regulation by TGF-beta 1 could play a role in renal carcinogenesis.
Mol Carcinog 1991
PMID:Altered growth regulation of rat kidney proximal tubule epithelial cells transformed in vitro by SV40 viral DNA: fibroblast growth factors (heparin-binding growth factors) are potent inducers of anchorage-independent growth. 164 62

The major form of autosomal dominant polycystic kidney disease (ADPKD) in humans is linked to the PKD1 gene on chromosome 16p. The identity of the gene and the underlying pathogenetic mechanisms are not yet defined. Cyst-lining epithelial cells derived from a polycystic kidney were successfully grown in culture and designated MZ-PKD-1 cells. By linkage analysis, the related pedigree of the nephrectomized patient could be linked to the PKD1 gene on chromosome 16p. Thus, these cells exhibit the genotype of a mutated PKD1 gene and represent an in vitro culture model for ADPKD involving chromosome 16p. The antigenic phenotype was characterized immunohistologically by epithelial differentiation antigens and markers of individual nephron segments. An essentially identical antigenic pattern of proximal tubular cells was observed both in vitro and in fresh frozen tissue. Electron microscopy showed the formation of a microvillous-like coating. During growth phases in vitro successive changes in the cell shape were observed. MZ-PKD-1 cells exhibited a limited lifespan ending in replicative senescence. Northern blot analysis of kidney-growth-related genes, c-myc, TGF-alpha, TGF-beta 1, and EGF receptor revealed abundant expression of all of these genes in MZ-PKD-1 cells.
Virchows Arch B Cell Pathol Incl Mol Pathol 1991
PMID:Autosomal dominant polycystic kidney disease--in vitro culture of cyst-lining epithelial cells. 168 80

The role of transforming growth factor-beta 1 (TGF-beta 1) in multisage carcinogenesis in mouse skin was assessed by studying its growth inhibitory effects on nontumorigenic and tumorigenic keratinocytes and by examining its mRNA expression in vitro and during epidermal hyperproliferation and multistage carcinogenesis. While growth of primary basal keratinocytes was inhibited by TGF-beta 1 in doses as low as 0.1 ng/mL, the immortal keratinocyte line MCA/3D ("putatively initiated" cells) responded to TGF-beta 1 with slightly reduced sensitivity, and the papilloma-producing keratinocyte line 308 was considerably less sensitive. In contrast, the squamous carcinoma cell line Carc B was completely nonresponsive, and two other tumorigenic cell lines (PDV and PDVC57) were sensitive to growth inhibition by TGF-beta 1. Steady-state levels of TGF-beta 1 mRNA were high in all the malignant cell lines and in line 308 papilloma cells, but low in primary basal cells and in the nontumorigenic keratinocyte lines V2, Reb1, and MCA/3D. Our in vivo studies showed that tumor promoters, but not mitogenic or weak hyperplasiogenic agents, were able to induce transient expression of TGF-beta 1 mRNA in mouse epidermis. A constitutive overexpression of TGF-beta 1 mRNA was observed in malignant carcinomas but not in the benign premalignant lesions, indicating that overexpression may be associated with malignant progression.
Mol Carcinog 1991
PMID:TGF-beta 1 and skin carcinogenesis: antiproliferative effect in vitro and TGF-beta 1 mRNA expression during epidermal hyperproliferation and multistage tumorigenesis. 171 Apr 62

Transforming growth factor-beta 3 (TGF-beta 3) mRNA is differentially expressed in developing and mature mouse tissues, including high-level expression in developing and adult cardiac tissue. We show now that TGF-beta 3 mRNA is also expressed highly in skeletal muscle as well as in the mouse skeletal myoblast cell line C2C12. We also show that C2C12 cells secrete TGF-beta 3, and that this TGF-beta is able to inhibit C2C12 myoblast fusion after activation. In order to begin to understand how the TGF-beta 3 promoter is regulated in specific tissues during development, we therefore studied the regulation of TGF-beta 3 during myoblast fusion. After fusion of C2C12 cells into myotubes, TGF-beta 3 mRNA levels increased eightfold as a result of increased TGF-beta 3 transcription. TGF-beta 3 transcriptional regulation was studied in myoblasts and myotubes by transfection of chimeric TGF-beta 3/CAT promoter plasmids. Chloramphenicol acetyltransferase (CAT) activity was stimulated in myoblasts by several upstream regions between -301 and -47 of the TGF-beta 3 promoter and by the TGF-beta 3 5' untranslated region. CAT activity directed by the TGF-beta 3 promoter in myotubes was stimulated by a distinct upstream region located between -499 and -221. Therefore, the high level of TGF-beta 3 mRNA expression in muscle cells appears to be dependent on multiple regulatory events during different stages of myogenesis.
Mol Cell Biol 1991 Jul
PMID:Secretion and transcriptional regulation of transforming growth factor-beta 3 during myogenesis. 171 Jul 72

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