Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gallium nitrate, a group IIIa metal salt, has been found to be clinically effective for the treatment of accelerated bone resorption in cancer-related hypercalcemia and Paget's disease. Here we report the effects of gallium nitrate on osteocalcin mRNA and protein levels on the rat osteoblast-like cell line ROS 17/2.8. Gallium nitrate reduced both constitutive and vitamin D3-stimulated osteocalcin protein levels in culture medium by one-half and osteocalcin mRNA levels to one-third to one-tenth of control. Gallium nitrate also inhibited vitamin D3 stimulation of osteocalcin and osteopontin mRNA levels but did not affect constitutive osteopontin mRNA levels. Among several different metals examined, gallium was unique in its ability to reduce osteocalcin mRNA levels without decreasing levels of other mRNAs synthesized by ROS 17/2.8 cells. The effects of gallium nitrate on osteocalcin mRNA and protein synthesis mimic those seen when ROS 17/2.8 cells are exposed to transforming growth factor beta 1 (TGF beta 1); however, TGF-beta 1 was not detected in gallium nitrate-treated ROS 17/2.8 cell media. Use of the RNA polymerase II inhibitor 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole demonstrated that gallium nitrate did not alter the stability of osteocalcin mRNA. Transient transfection assays using the rat osteocalcin promoter linked to the bacterial reporter gene chloramphenicol acetyltransferase indicated that gallium nitrate blocked reporter gene expression stimulated by the osteocalcin promoter. This is the first reported effect of gallium nitrate on isolated osteoblast cells.
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PMID:Gallium nitrate regulates rat osteoblast expression of osteocalcin protein and mRNA levels. 838 Dec 50

The function of the 5' flanking region of the human elastin gene on transcription regulation has been investigated in chick embryo aorta cells by transient DNA transfer experiments with elastin-chloramphenicol acetyltransferase (CAT) fusions. The results have shown that the region comprised within -129 and -12 bp from the translation start site is essential for transcription and probably contains different control sequences. Expression of the reporter gene was increased 2-4-fold by addition of TGF-beta to the cell cultures. Analysis of CAT expression from different deletion constructs suggests that sequences in the region -196 to -12 play a major role in TGF-beta induction. The stimulating effect of the growth factor could not be observed when transfections were performed with chick embryo tendon fibroblasts. This suggests that transcriptional regulation of elastin by TGF-beta is tissue specific.
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PMID:Regulation of the human elastin promoter in chick embryo cells. Tissue-specific effect of TGF-beta. 838 31

Chimeric plasmids containing selected reporter coding domains and portions of the transforming growth factor beta 1 (TGF-beta 1) 3' untranslated region (UTR) were prepared and used to identify potential mechanisms involved in regulating the biosynthesis of TGF-beta 1. Transient transfections with core and chimeric constructs containing the chloramphenicol acetyltransferase (CAT) reporter showed that steady-state CAT mRNA levels were decreased two- to threefold in response to the TGF-beta 1 3' UTR. Interestingly, CAT activity was somewhat increased in the same transfectants. Thus, production of CAT protein per unit of mRNA was stimulated by the TGF-beta 1 3' UTR (approximately fourfold in three cell lines of distinct lineage). The translation-stimulatory effect of the TGF-beta 1 3' UTR suggested by these studies in vivo was confirmed in vitro by cell-free translation of core and chimeric transcripts containing the growth hormone coding domain. These studies showed that production of growth hormone was stimulated threefold by the TGF-beta 1 3' UTR. A deletion analysis in vivo indicated that the GC-rich domain in the TGF-beta 1 3' UTR was responsible for both the decrease in mRNA levels and stimulation of CAT activity-mRNA. We conclude that this GC-rich domain can have a bifunctional effect on overall protein expression. Moreover, the notable absence of this GC-rich domain in TGF-beta 2, TGF-beta 3, TGF-beta 4, and TGF-beta 5 indicates that expression of distinct TGF-beta family members can be differentially controlled in cells.
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PMID:A GC-rich domain with bifunctional effects on mRNA and protein levels: implications for control of transforming growth factor beta 1 expression. 849 72

Osteocalcin (OC), a bone specific protein expressed during differentiation and mineralization of the bone extracellular matrix, is down-regulated upon treatment with transforming growth factor (TGF)-beta 1. To address the potential role of OC gene expression in relation to TGF-beta 1 regulation of bone formation and resorption, we examined the transcriptional activity of the rat OC promoter after TGF-beta 1 treatment. 5' deletion analysis of rat OC promoter-chloramphenicol acetyltransferase constructs demonstrated that TGF-beta 1 treatment repressed chloramphenicol acetyltransferase activity by 2.4-fold in transient transfections of ROS 17/2.8 cells. A 29-bp region between -162 and -134 identified as the TGF-beta 1 response domain, conferred TGF-beta 1 responsiveness to the -108 to +24 rat OC basal promoter in an orientation dependent manner. Mutation of an activator protein-1/cAMP-response element-like motif (- 146 to -139) abolished TGF-beta 1 responsiveness of the construct. In vitro gel-mobility shift and competition assays using wild-type and mutated oligonucleotides and antibodies indicate that Fra-2, a Fos related transcription factor, binds to this motif. We show that Fra-2 is an activator of the OC promoter, and TGF-beta 1 inhibits this activation. Our results demonstrate that Fra-2 is hyperphosphorylated upon TGF-beta 1 treatment of ROS 17/2.8 cells. Additionally, treatment of cells with a staurosporine protein kinase C inhibitor abrogates TGF-beta 1 mediated down-regulation of the OC promoter activity. Together, these results demonstrate that TGF-beta 1 responsiveness of the rat osteocalcin gene in ROS 17/2.8 cells is mediated through an activator protein-1 like cis-acting element that interacts with Fra-2. Furthermore, our results are consistent with a critical role for TGF-beta 1 induced phosphorylation of Fra-2 in the repression of OC gene transcription.
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PMID:Transforming growth factor-beta 1 responsiveness of the rat osteocalcin gene is mediated by an activator protein-1 binding site. 861 40

Previous studies have shown that transforming growth factor-beta (TGF-be ta) and tumor necrosis factor-alpha (TNF-alpha) modulate type I collagen gene expression in fibroblasts. To fine-map the corresponding response elements in the human alpha2(I) collagen (COL1A2) promoter, we have generated a series of 5' deletion promoter/chloramphenicol acetyltransferase (CAT) reporter gene constructs. Transient cell transfection assays using human dermal fibroblasts and stable transfection experiments using NIH 3T3 fibroblasts identified the region located between residues -265 and -241, as critical for TGF-beta response. Specifically, we demonstrate that this 25-base pair region mediates the up-regulatory effect of TGF-beta on COL1A2 promoter activity and allows antagonistic activity of TNF-alpha on the TGF-beta effect. Gel mobility shift assays indicate that nuclear factor binding to this 25-base pair region of COL1A2 promoter is competed by AP-1, but not NF-1 or NF-kappaB, oligonucleotides. Transient cell transfection experiments with plasmid constructs in which the potential AP-1-binding site located within this short region of promoter was modified by site-directed mutagenesis indicated that this element plays a significant role in the basal activity of the promoter. Furthermore, this sequence is essential for TGF-beta response and does not require the presence of the three Sp-1-binding sites located further upstream, between nucleotides -273 and -304. In addition, overexpression of c-jun in co-transfection experiments with COL1A2 promoter/CAT constructs blocks the TGF- beta response, further implicating AP-1 in the regulation of COL1A2 gene expression. Our results clarify the molecular mechanisms involved in the regulation of type I collagen gene expression and further emphasize the importance of AP-1 in mediating some of the TGF-beta effects on gene transcription.
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PMID:An AP-1 binding sequence is essential for regulation of the human alpha2(I) collagen (COL1A2) promoter activity by transforming growth factor-beta. 862 30

Perlecan, a modular heparan sulfate proteoglycan of basement membranes and cell surfaces, plays a crucial role in regulating the assembly of extracellular matrices and the binding of nutrients and growth factors to target cells. To achieve a molecular understanding of perlecan gene regulation, we isolated the 5'-flanking region and investigated its functional promoter activity and its response to cytokines. Transient cell transfection assays, using plasmid constructs harboring the perlecan promoter linked to the chloramphenicol acetyltransferase reporter gene, demonstrated that the largest approximately 2.5-kilobase construct contained maximal promoter activity. This promoter region was functionally active in a variety of cells of diverse histogenetic origin, thus corroborating the widespread expression of this gene product. Stepwise 5' deletion analyses demonstrated that the -461-base pair (bp) proximal promoter retained approximately 90% of the total activity, and internal deletions confirmed that the most proximal sequence was essential for proper promoter activity. Nanomolar amounts of transforming growth factor-beta induced 2-3-fold perlecan mRNA and protein core levels in normal human skin fibroblasts, and this induction was transcriptionally regulated; in contrast, tumor necrosis factor-alpha had no effect and was incapable of counteracting the effects of TGF-beta. Using additional 5' deletions and DNase footprinting analyses, we mapped the TGF-beta responsive region to a sequence of 177 bp contained between -461 and -285. This region harbored a 14-bp element similar to a TGF-beta-responsive element present in the promoters of collagen alpha1(I), alpha2(I), elastin, and growth hormone. Electrophoretic mobility shift assays and mutational analyses demonstrated that the perlecan TGF-beta-responsive element bound specifically to TGF-beta-inducible nuclear proteins with high affinity for NF-1 member(s) of transcription factors.
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PMID:Structural and functional characterization of the human perlecan gene promoter. Transcriptional activation by transforming growth factor-beta via a nuclear factor 1-binding element. 903 May 92

Administration of TGF-beta, a fibrogenic inflammatory growth factor, promotes fibrosis and scarring. Dexamethasone, an anti-inflammatory steroid, inhibits wound healing and reduces fibrosis. The current studies were initiated to determine whether the co-administration of dexamethasone was able to abrogate the fibrogenic effect of TGF-beta. Polyvinyl alcohol sponges were implanted subcutaneously on the abdominal area of rats and directly injected with vehicle, dexamethasone, TGF-beta, or dexamethasone plus TGF-beta. Dexamethasone was able to block the fibrogenic effect of TGF-beta. Collagen and noncollagen protein synthesis was measured as a function of TGF-beta or dexamethasone concentrations in fibroblasts isolated from granulation tissue. Addition of dexamethasone to cultures treated simultaneously with TGF-beta blocked the fibrogenic response of TGF-beta. To study the molecular regulation of collagen gene expression by TGF-beta or dexamethasone, fibroblasts derived from granulation tissue were stably transfected with the ColCat 3.6 plasmid, which contains the rat pro alpha1(I) collagen promoter linked to the chloramphenicol acetyltransferase (CAT) gene. Dexamethasone decreased CAT activity whereas TGF-beta increased the activity of this reporter gene. The increase in CAT activity observed with TGF-beta treatment was significantly decreased when dexamethasone was added to the cultures, although CAT activity did not return to control level. Since collagen synthesis in fibroblasts treated simultaneously with dexamethasone and TGF-beta1 was found to be the same as that of untreated samples, the data indicate that there is a dexamethasone-mediated posttranscriptional regulation of pro alpha1(I) collagen mRNA. These studies demonstrate that at the in vivo level, the cellular level, and the molecular level, dexamethasone is able to block the fibrogenic effect of TGF-beta.
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PMID:Dexamethasone abrogates the fibrogenic effect of transforming growth factor-beta in rat granuloma and granulation tissue fibroblasts. 903 26

Growth factor regulation of normal and cancerous cell proliferation has been well-documented and may be mediated by proto-oncogene activity. The purpose of this study was to assess changes in proliferation and mitogen-induced c-fos mRNA expression of an endometrial carcinoma cell line, HEC-1-A, in response to TGF-beta, a potent growth-inhibitory peptide. HEC-1-A cells were incubated in the presence or absence of TGF-beta. Mitogen-stimulated cells were additionally treated with epidermal growth factor (EGF). Changes in proliferation were measured by [3H]thymidine uptake assays. Alterations in EGF-induced c-fos expression following TGF-beta pretreatment were assessed by Northern blot using a 32P-labeled human c-fos probe. Finally, chloramphenicol acetyltransferase assays were performed to evaluate c-fos promoter activity in response to treatment conditions. Basal and EGF-stimulated proliferation was inhibited by TGF-beta in a dose- and time-dependent manner. TGF-beta also reversibly decreased EGF-induced c-fos mRNA expression in a dose- and time-dependent manner. Sequences in the c-fos promoter that were stimulated by EGF showed suppressed activity when preincubated with TGF-beta. These results show that TGF-beta negatively modulates EGF-induced c-fos expression, which may be related to the observed inhibition of carcinoma cell proliferation.
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PMID:Transforming growth factor-beta negatively modulates proliferation and c-fos expression of the human endometrial adenocarcinoma cell line HEC-1-A. 910 92

Human collagenase-3 (MMP13) is a recently identified member of the matrix metalloproteinase (MMP) family that is expressed in breast carcinomas and in articular cartilage from arthritic patients. In this work we have isolated and characterized genomic clones coding for human collagenase-3. This gene is composed of 10 exons and 9 introns and spans over 12.5 kb. The overall organization of the collagenase-3 gene is similar to that of other MMP genes clustered at chromosome 11q22, including fibroblast collagenase (MMP-1), matrilysin (MMP-7), and macrophage metalloelastase (MMP-12), but is more distantly related to genes coding for stromelysin-3 (MMP-11), gelatinase-A (MMP-2), and gelatinase-B (MMP-9), which map outside of this gene cluster. Nucleotide sequence analysis of about 1 kb of the 5'-flanking region of the collagenase-3 gene revealed the presence of a TATA box, an AP-1 motif, a PEA-3 consensus sequence, an osteoblast specific element (OSE-2), and a TGF-beta inhibitory element. Transient transfection experiments in HeLa and COS-1 cells with chloramphenicol acetyltransferase (CAT)-containing constructs showed that the AP-1 site is functional and responsible for the observed inducibility of the reporter gene by the tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA). However, and in contrast to other MMP genes, no significative synergistic effect on CAT activity between the AP-1 and PEA-3 elements found in the collagenase-3 gene promoter was found. DNA binding analysis with nuclear extracts from HeLa cells revealed the formation of specific complexes between collagenase-3 promoter sequences containing the AP-1 site and nuclear proteins. The presence of this AP-1 functional site, which is able to confer responsiveness to a variety of tumor promoters and oncogene products, amy contribute to explaining the high-level expression of collagenase-3 in breast carcinomas and degenerative joint diseases.
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PMID:Structural analysis and promoter characterization of the human collagenase-3 gene (MMP13). 911 88

Interferon-gamma (IFN-gamma), a multifunctional cytokine produced by activated Th1 lymphocytes, exerts potent effects on the extracellular matrix by regulating fibroblast function. In this study, we examined the modulation of alpha1(I) procollagen gene (COL1A1) expression by recombinant IFN-gamma. The results showed that IFN-gamma stimulated the rapid accumulation of interferon regulated factor (IRF)-1 mRNA, followed by a delayed and dose-dependent inhibition of alpha1(I) procollagen mRNA expression in skin fibroblasts from several different donors. The inhibitory response was abrogated in fibroblasts stably expressing IRF-1 in the antisense orientation. A marked decrease in the amount of heterogeneous nuclear pre-mRNA preceded the inhibition of COL1A1 mRNA expression. In fibroblasts transiently transfected with COL1A1 promoter-chloramphenicol acetyltransferase reporter gene plasmids, IFN-gamma selectively inhibited promoter activity and abrogated its stimulation induced by TGF-beta. The inhibition by IFN-gamma was not due to downregulation of TGF-beta receptor mRNA expression in the fibroblasts or decreased ligand binding to the receptor. IFN-alpha and IFN-beta by themselves had little effect on promoter activity, but IFN-alpha augmented the inhibitory effect of IFN-gamma. Using a series of 5' deletion constructs, a proximal region of the COL1A1 promoter was shown to function as an IFN-gamma response element. This region of the gene harbors overlapping binding sites for transcription factors Sp1, Sp3, and NF-1 but no homologs of previously characterized IFN-gamma response elements. The putative IFN-gamma response region was sufficient to confer inhibition of reporter gene expression by treatment with IFN-gamma. Gel mobility shift analysis showed that two distinct and specific DNA-protein complexes were formed when fibroblast nuclear extracts were incubated with oligonucleotides spanning the IFN-gamma response region. IFN-gamma did not modify the ability of nuclear proteins to bind to this region. The results indicate that IFN-gamma inhibits COL1A1 expression in fibroblasts principally at the level of gene transcription. Inhibition involves IRF-1 and is mediated through a short proximal promoter segment but without an apparent change in promoter occupancy. The findings provide novel insight into the mechanism of IFN-gamma regulation of fibroblast function.
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PMID:Negative modulation of alpha1(I) procollagen gene expression in human skin fibroblasts: transcriptional inhibition by interferon-gamma. 1008 37


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