UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Type 1 iodothyronine deiodinase (D1) converts T4 to T3, the active thyroid hormone, by removal of the outer ring iodine. Previous studies in liver and thyroid cells have shown that T3 regulates Type 1 deiodinase (dio1) gene expression by a mechanism not requiring ongoing protein synthesis. For certain T3-regulated genes, such as rat GH, T3-induced transcription is blocked by protein synthesis inhibitors. Because the somatotrope tumor cell lines express both dio1 and GH, we compared these two positively T3-regulated genes to establish whether cycloheximide blockade of T3 effects is cell-type or gene specific. In these cells, the T3 stimulation of dio1 messenger RNA (mRNA) is not blocked by cycloheximide, whereas the T3 effect on GH mRNA synthesis is eliminated. Other differences between these two genes were also noted. Retinoic acid does not alter dio1 gene expression or the response to T3 but increases GH and synergizes with T3. Dexamethasone alone had no effect on dio1 mRNA but did enhance the effect of T3 on both dio1 and GH. These results point to distinct pathways for T3 induction of mRNA synthesis from different genes within the same cell.
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PMID:Pituitary cells respond to thyroid hormone by discrete, gene-specific pathways. 753 1

Vitamin A is metabolized to several biologically active compounds, the best known of which is retinoic acid. This compound has been shown to inhibit the growth of a variety of tumor cells and to induce a more differentiated phenotype in several tumor types. Vitamin D is metabolized to the active compound 1,25-dihydroxyvitamin D3. This vitamin is well-known for its role in maintaining calcium homeostasis in the body. Recently it has been shown that vitamin D3 can also inhibit tumor cell replication and stimulate differentiation of selected tumor types. Retinoic acid is being used clinically to treat promyelocytic leukemia, head and neck tumors as well as cervical dysplasia. Use of vitamin D3 clinically has been restricted by its affect on calcium metabolism. Recently, however, new analogs of vitamin D3 have been developed which have much less calcium mobilizing activity, yet still retain their tumor inhibitory properties. The action of both of these vitamins is mediated by nuclear receptors which have the same structure as steroid receptors. There are three nuclear retinoic acid receptors (RAR alpha, beta, and gamma), but only one vitamin D3 nuclear receptor. These receptors are expressed in very small amounts. Since the ligand should be in vast excess of receptor (ie not limiting), we explored the possibility that response to vitamin A might be mediated by control of RAR expression. Using B16 mouse melanoma cells as a model system, we found that RAR alpha and gamma mRNAs were constitutively expressed. RAR beta mRNA was induced by treatment of the cells with RA. Induction of RAR beta mRNA occurred within 1h and was not inhibited by cycloheximide. The mRNA for all three RARs was dramatically decreased with 8-bromo-cyclic AMP treatment and could not be rescued by addition of RA. Analysis of RAR gamma revealed that this decrease occurred within 1h of exposure to 8-bromo-cyclic AMP and was not blocked by simultaneous treatment with cycloheximide. Nuclear extracts from cyclic AMP-treated cells showed a large decrease in protein binding to a retinoic acid response element (RARE) oligonucleotide compared to control cells. This correlated with a marked reduction of RA-stimulated RARE-reporter gene activity in transfected cells which were treated with cyclic AMP. Pre-treatment of B16 cells with cyclic AMP prior to RA addition dramatically reduced induction of PKC alpha, an early marker of RA-induced cell differentiation. Thus, cyclic AMP can antagonize the physiological actions of RA via its ability to inhibit RAR expression.
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PMID:Use of vitamins A and D in chemoprevention and therapy of cancer: control of nuclear receptor expression and function. Vitamins, cancer and receptors. 764 20

Retinoic acid (RA) has profound effects on cell proliferation and differentiation both in vitro and in vivo. Many human cell lines are known to be sensitive to the growth-inhibitory action of RA. We analyzed established human solid tumor-derived cell lines for their RA sensitivity. Growth inhibition by RA in monolayer was examined by [3H]thymidine incorporation and cell proliferation. Here we report that 11 widely used human cell lines were RA resistant. The majority are carcinoma derived (A-431, BT-20, C-41, ACHN, HCT116, 293, A549, and PA-1); two are sarcoma derived (Saos-2 and A673); and one is a melanoma cell line (A-375). Since nuclear retinoid receptors are implicated in the biological effects of RA, we examined the expression of retinoic acid receptors (RARs) RAR alpha, RAR beta, RAR gamma, and the retinoid X receptors (RXRs) RXR alpha, RXR beta, and RXR gamma in the RA-resistant cell lines by northern blotting and by RNase protection analysis for RAR beta. RAR alpha transcripts were constitutively expressed in all cell lines. By contrast, RAR beta was expressed in only seven RA-resistant cell lines (Saos-2, ACHN, 293, A549, A-375, A673, and PA-1), and its level was enhanced by RA in some cases. In most cell lines, RAR gamma expression was low and was not affected by RA. The RXR genes showed a very distinct expression pattern in the group of selected cell lines. In general, RXR alpha was the most abundantly expressed subtype, RXR beta was expressed at low levels, and RXR gamma could not be detected. In none of the RA-resistant cell lines was RXR expression modulated by RA. The results presented here indicate that the resistance of these human tumor cell lines to RA cannot be simply correlated with expression of RAR or RXR or both.
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PMID:Retinoic acid receptor and retinoid X receptor expression in retinoic acid-resistant human tumor cell lines. 769 Oct 69

Cellular senescence is characterized by a finite proliferative capacity in vitro. Moreover, the proliferative capacity of dermal fibroblasts harvested from humans is inversely proportional to the age of the donor, suggesting that senescence in culture is a manifestation, at the cellular level, of processes that occur during in vivo human aging. As cellular senescence is a program that ultimately decreases cell proliferation, it has been hypothesized that the genetic mechanisms responsible for the negative growth regulation of senescence may also be involved in the suppression of neoplastic transformation. Retinoic acid (RA) and its derivatives are effective negative growth regulators and are known to inhibit tumor growth, in vitro and in vivo. As a first step in examining a role for retinoic acid in the regulation of cellular aging in human fibroblasts, we examined the expression of the nuclear receptors for RA (RAR alpha, RAR beta, and RAR gamma) in human donors of different ages. These studies demonstrate a selective up-regulation of RAR beta, in response to RA, in fibroblasts that manifest a decreased proliferative capacity. We extend these observations to show that this finding is independent of the age of the donor and correlates with the proliferative capacity of the culture as a whole. Nuclear run-on studies show that the increase in RAR beta mRNA accumulation is mediated by a striking increase in the transcription of the RAR beta 2 isoform. Senescent fibroblasts manifesting the transcriptional increase of the RAR beta 2 isoform also demonstrate transcriptional repression of the protooncogene, c-fos. Functional studies demonstrate that RAR beta 2, like the tumor suppressor gene p53, can inhibit oncogene-induced focus formation. These data provide further support for the contention that genetic events important in cellular senescence may also play a significant role in tumor suppression in humans. Moreover, these observations suggest that RA, through transcriptional regulation of RAR beta 2, may mediate aspects of the negative growth control that characterizes both states.
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PMID:Cellular aging and transformation suppression: a role for retinoic acid receptor beta 2. 773 67

Retinoic acid receptors (RARs) regulate gene expression either by directly binding to the RAR-responsive elements or by antagonizing the action of c-Jun/c-Fos (AP1). AP1 is involved in the expression of metalloproteases, cytokines and other factors which play critical roles in the turnover of extracellular matrix, inflammation and hyperproliferation in diseases such as psoriasis, rheumatoid arthritis and in tumor metastases. We demonstrate here that synthetic retinoids inhibit 12-O-tetradecanoylphorbol-14-acetate-induced transcription from the stromelysin AP1 motif through RAR alpha, -beta, and -gamma. Interestingly, these diaryl acetylenic retinoids, which are potent agonists only for RAR beta and RAR gamma, but not for RAR alpha, in transactivation assays, are able to inhibit AP1-dependent gene expression through RAR alpha. Thus these analogs can differentially affect the transactivation and AP1 antagonistic functions of RAR alpha. These results demonstrate that the transactivation and AP1 antagonistic functions are separable, and it should be possible to develop retinoids that are completely specific for AP1 antagonism through all RARs. Furthermore, using an RAR-selective ligand, we also demonstrate the separation of ligand binding and AP1 antagonism functions of RARs.
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PMID:Separation of transactivation and AP1 antagonism functions of retinoic acid receptor alpha. 782 31

Human colorectal tumor cells expressing differing metastatic potential and tissue transglutaminase (TGA) activity were tested for the ability of various pharmacological agents to enhance TGA activity. The most effective stimulant was tetradecanoylphorbol-13-acetate (TPA), which in human colon carcinoma cells (SW620) caused a 5-fold, protein synthesis dependent increase in activity over 3 days. In WiDr and SW480 cells TGA activity was less susceptible to induction by TPA, possibly owing to the higher basal levels of TGA. Retinoic acid and a synthetic retinoid, [RO 15-1570; (E)-4-[2(5,6,7,8-tetramethylnaphthalene-2-yl)propen-1-yl] benzenesulphonyl-ethane)], also induced TGA activity to a lesser extent in SW620 cells, whereas other differentiation inducers [sodium butyrate and hexamethylene bis-acetamide (HMBA)] were ineffective. In LS174T cells, TGA activity was resistant to induction by all of the agents. The synthetic retinoid (RO 15-1570) inhibited in vitro invasiveness of SW620 cells, however, TPA treatment or addition of exogenous TGA did not inhibit invasiveness of these cells. Hence, the invasive behavior of a metastatic human colon tumor cell line (SW620) does not appear to be dependent on the TGA activity which the cells express. The anti-invasive activity of the retinoid in SW620 cells therefore may be mediated by some other mechanism.
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PMID:Pharmacological alterations of cellular transglutaminase activity and invasiveness in human colorectal carcinoma cells. 790 10

Tumour cells are more heat sensitive than corresponding normal cells but the reasons for this are poorly understood. Here we report that induction of heat shock proteins was associated with a down-regulation of the metastasis associated mts1 gene in BL6-B16 murine melanoma cells, and the heat-resistant HTG variant of the BL6 line. Melanocyte stimulating hormone, which does not affect B16 cell proliferation but upregulates mts1 expression, only marginally enhanced heat shock protein expression in F1 cells as determined by immunohistochemical methods. Retinoic acid, which inhibits cell proliferation and down-regulates the mts1 gene, reduced heat shock protein expression in the ML8-B16 variant line. This suggests that the changes in the heat shock protein expression reported here may be cell proliferation related. Heat shock proteins are known to stabilize microtubules, whereas mts1 has been implicated in their depolymerization. Taxol, which stabilizes microtubules and arrests cells at the G1 phase of the cell cycle, down-regulated mts1 gene expression in both F1 and ML8 lines. Taxol also reduced heat shock protein expression in ML8 cells. These data suggest opposing functions of heat shock proteins and the mts1 gene in microtubule polymerization, and may provide a rationale for the use of hyperthermia as a treatment for tumours.
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PMID:Metastasis-associated mts1 gene expression is down-regulated by heat shock in variant cell lines of the B16 murine melanoma. 791 58

Retinoic acid (RA) and nerve growth factor (NGF) are both differentiation factors for central nervous system tumours. Mouse-derived NGF inhibits proliferation of C6 glioma cells in vivo in the absence of serum. Retinoic acid inhibits in vivo growth of C6 gliomas in the subcutaneous tissue of rats. This study evaluated the response of C6 cells implanted in the rat cortex to NGF, RA, or a combination of the two in 89 rats. Tumour size, cellular density and morphology were analysed using light microscopy. Treatment with RA alone resulted in tumour volumes that were 38% of control and 48% of NGF-treated groups. There was no significant difference in the tumour volumes or in cell morphology in C6 cells treated with NGF alone compared to controls. Tumours treated with a combination of RA and NGF were larger however, than tumours treated with RA alone. This suggests that despite the growth inhibitory effects of NGF in vitro, NGF acts to prevent the growth inhibitory effect of RA in vivo.
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PMID:Trans retinoic acid inhibits in vivo tumour growth of C6 glioma in rats: effect negatively influenced by nerve growth factor. 793 86

We have used a tumorigenic glioblastoma cell line, SNB-19, as a model system to identify fucose-containing glycoprotein candidates for tumor suppressor function. Glycoproteins were analyzed after treatment with a variety of chemical differentiating agents by two-dimensional SDS-PAGE, followed by electroblotting and visualization using the fucose-specific lectin, Ulex europeaus I. Approximately 25 fucose-containing glycoproteins (FUCGLAPs) were routinely visualized in control extracts using 60-70 micrograms of protein per gel and staining with Vectastain ABC kits. Retinoic acid induced the most marked change in FUCGLAP expression, causing a fivefold increase in one FUCGLAP (M(r) = 125 kDa, pI = 6.6). Neither butyric acid, dibutyryl cAMP, nor combinations of these compounds gave a similar result. Using this model system and analytical approach, it should be possible to identify, isolate, and evaluate glycoprotein oligosaccharides for their tumor modulating capability.
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PMID:The identification of glioblastoma-associated, fucose-containing glycoproteins induced by retinoic acid. 808 41

Incubation with 1 nM triiodothyronine (T3) decreased cycloheximide-induced c-fos mRNA levels and the mRNA response to the tumor promoter 12-O-tetradecanoyl-phorbol-13-acetate (TPA; 100 nM) or to forskolin (15 microM). T3 also reduced the abundance of nuclear proteins that bind to an AP-1 binding site and the levels of c-Fos protein, as determined by Western blot. In transient transfection assays with a c-fos promoter reporter construct T3 decreased basal promoter activity by more than 50-60% and strongly inhibited the TPA and forskolin-induced activity. T3 further suppressed basal promoter activity and led to a drastic decrease of the response to both stimulatory agents after co-transfection of the promoter with an expression vector for the receptor. A truncated receptor that lacks the DNA binding domain abolished the inhibitory effect of the endogenous and transfected T3 receptor. Retinoic acid (RA) had an effect similar to T3 reducing basal CAT activity and the response to TPA and forskolin by 40-50% in cells co-transfected with the c-fos promoter and an expression vector for the RA receptor. The inhibitory effect of the nuclear receptors on c-Fos is reciprocal, since overexpression of c-Fos repressed induction of the activity of the growth hormone promoter by T3 and RA. Co-transfection with an antisense c-fos vector relieved this inhibition and restored the response to both ligands. These results show the antagonism between the nuclear receptors and the membrane signal transduction pathways that converge on the c-fos oncogene.
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PMID:Repression of c-fos gene expression by thyroid hormone and retinoic acid receptors. 822 82

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