Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The growth of estrogen receptor (ER)-positive breast cancer cells is inhibited by all-trans-retinoic acid (RA). In the present study, estrogen (E2) induction of pS2 mRNA levels was significantly reduced within 6 h following cotreatment with RA. In transient transfection experiments, RA repressed transactivation from a vitellogenin E2-responsive element by approximately 50% and wild-type RA receptor alpha (RARalpha) or RARbeta enhanced this inhibition. Transfection of truncated RARalpha mutants terminating before or at amino acid 412 markedly decreased RA inhibition of E2-induced reporter gene activity. Expression of RARs with deletions of amino acids 413 and 414 in the transactivation-2 (AF-2) domain also reduced RA inhibition, while deletions and point mutations beyond amino acid 414 behaved like the wild-type RARalpha. RA-treated MCF-7 cells transfected with an RARalpha AF-2 region mutant were twice as sensitive to growth inhibition as untransfected and vector-transfected control cells. Thus, the AF-2 domain in the C terminus of the RARalpha mediates RA inhibition of ER-induced transcription in breast cancer cells. In addition, transcriptional interference between RARs and ERs may contribute to RA inhibition of ER-positive breast cancer cell growth.
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PMID:The AF-2 region of the retinoic acid receptor alpha mediates retinoic acid inhibition of estrogen receptor function in breast cancer cells. 870 69

In this study we show that a breast cancer cell line (SKBR3) that expresses no E-cadherin and very low levels of beta-catenin protein and exhibits a poorly adhesive phenotype in Matrigel responds to retinoic acid (RA) by a marked increase in epithelial differentiation. Specifically, treatment of cells with all-trans-RA, 9-cis-RA, or a RA receptor alpha-specific ligand resulted in a large increase in cell-cell adhesive strength and stimulated the formation of fused cell aggregates in Matrigel. A retinoid X receptor-specific ligand was ineffective. Exposure of cells to 9-cis-RA for as little as 4 h was sufficient to maintain the adhesive phenotype for at least 4 days. The effects of 9-cis-RA required protein and RNA synthesis, but were not mediated by factors secreted by stimulated cells or by direct cell contact and did not require serum. These 9-cis-RA-induced morphological effects were completely reversed by growing cells in 50 microM Ca2+, suggesting a mechanism involving a 9-cis-RA-induced increase in Ca(2+)-dependent adhesion. Consistent with this, beta-catenin protein levels were markedly elevated in the 9-cis-RA-treated cells, and beta-catenin became localized to a Triton-insoluble pool at regions of cell-cell contact. No change could be detected in beta-catenin steady state messenger RNA levels, but 9-cis-RA did increase beta-catenin protein stability. Treatment of cells with low calcium medium did not prevent the 9-cis-RA-induced increase in total beta-catenin protein, but did prevent its movement to a Triton-insoluble pool at the cell membrane. Among several kinase inhibitors, only the broad spectrum kinase inhibitor staurosporine and the protein kinase C inhibitor bisindoylmaleimide reversed the morphological changes induced by 9-cis-RA. Like treatment with low calcium medium, these inhibitors did not prevent the 9-cis-RA-induced increase in total beta-catenin protein levels, but completely prevented the movement of beta-catenin to the cell membrane. These results point to a role for beta-catenin and serine kinase activity in mediating the action of 9-cis-RA in epithelial differentiation.
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PMID:Retinoids increase cell-cell adhesion strength, beta-catenin protein stability, and localization to the cell membrane in a breast cancer cell line: a role for serine kinase activity. 875 49

N-(4-Hydroxyphenyl) retinamide (4HPR) and retinoyl beta-glucuronide (RAG) are two derivatives of all-trans retinoic acid (RA) that show properties both similar to as well as different from their parent compound, RA. Both retinoids possess the important property of showing much-reduced toxicity relative to RA while maintaining significant biological activity. 4HPR, a synthetic derivative, is active in the prevention and treatment of a variety of neoplasms in animals, and by inducing apoptosis, shows growth inhibitory activity against many human tumor cell types in vitro. In humans, 4HPR reduces the incidence of new occurrences of leukoplakia and is currently being tested as a preventive agent for breast cancer. RAG, a naturally occurring metabolite of RA, effectively stimulates the growth of vitamin A-deficient animals, induces the differentiation of epithelial cells in vivo and in vitro, and is effective in the topical treatment of acne in humans. Unlike RA, RAG is nontoxic when applied to the skin and is nonteratogenic when given orally to rats. Possible mechanisms of action of both compounds are discussed. These two derivatives of retinoids show interesting physiologic effects and potentially beneficial pharmacologic actions.
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PMID:Bioactivities of N-(4-hydroxyphenyl) retinamide and retinoyl beta-glucuronide. 880 Nov 62

Because the retinoic acid (RA) signaling pathway regulates cell proliferation and differentiation, inactivation of genes integral to the pathway represents a potential mechanism of carcinogenesis. We have studied in human breast cancer cells (T47D, MCF-7, ZR75-1, MDA-MB-231, and BT20) the expression of a subset of retinoid signaling genes that are themselves transcriptionally up-regulated by RA, the cellular retinol binding protein type I (CRBPI) and the RA receptors (RARs) alpha2, beta2, and gamma2. We find that constitutive expression of these genes is low or undetectable, and that expression levels are seldom responsive to 24 h treatment with 1 microM all-trans or 9-cis RA (Northern blot analysis). This is in contrast to breast fibroblasts, which show RA-dependent expression of all four genes under the same conditions. Moreover, normal human breast epithelial cells express CRBPI and RARbeta2 at the mRNA level, suggesting that loss of expression of these genes is tied to malignant transformation. RARbeta2, but not CRBPI, was also expressed in RA-treated MTSV1-7 cells, an immortalized but nontumorigenic luminal epithelial cell line. Lack of CRBPI and RARbeta2 expression in cancer cells was not due to general impairment of RA signaling, as shown by RA activation of a RARE3-tk-CAT reporter in a subclone of MDA-MB-231 cells that did not express either CRBPI or RARbeta2. These results suggest that at least two independent defects in the expression of proteins that function in retinoid signaling may be involved in breast carcinogenesis.
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PMID:Defective expression of cellular retinol binding protein type I and retinoic acid receptors alpha2, beta2, and gamma2 in human breast cancer cells. 880 Nov 68

Apolipoprotein D (apoD) is a human plasma protein, belonging to the lipocalin superfamily, that is produced by a specific subtype of highly differentiated breast carcinomas and that is strongly up-regulated by retinoic acid (RA) in breast cancer cells. In this work, we have examined the molecular mechanisms mediating the induction of apoD gene expression by retinoids in T-47D human breast cancer cells. Northern blot analysis revealed that Ro40-6055, a synthetic retinoid that selectively binds and activates the retinoic acid receptor RARalpha, induced the accumulation of apoD mRNA in breast cancer cells in a time- and dose-dependent manner. The time course analysis demonstrated that apoD mRNA was induced 14-fold over control cells after 48 h of incubation with 10(-8) M Ro40-6055. As little as 10(-11) M of this retinoid induced apoD mRNA 5-fold over the control, whereas incubation with 10(-7) M Ro40-6055 induced maximally 15-fold over control cells. RARalpha-selective antagonists counteracted the inductive effects of all-trans-RA, 9-cis-RA, and Ro40-6055 on the expression of apoD, when present at the same concentration as the retinoid agonists. By contrast, RARbeta-, RARgamma-, and RXR-selective retinoids did not affect apoD gene expression. The retinoid agonist Ro40-6055 had an antiproliferative effect on T-47D cells, with maximal growth inhibition of approximately 60% obtained after 7 days of incubation with 10(-7) M. This antiproliferative effect could be counteracted by a 100-fold excess of the antagonist Ro41-5253. Treatment of the cells with retinoids that do not bind the nuclear retinoic acid receptors did not affect apoD expression, despite the fact that they did have a strong antiproliferative effect on T-47D cells. On the basis of these results, a role for RARalpha on apoD gene expression induction by retinoids in breast cancer cells is proposed.
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PMID:Retinoic acid-induced expression of apolipoprotein D and concomitant growth arrest in human breast cancer cells are mediated through a retinoic acid receptor RARalpha-dependent signaling pathway. 894 63

When human breast cancer T47D cells were treated with all-trans-retinoic acid (RA), the RA 4- and 18-hydroxylase activities were induced in microsomes in a time-dependent manner, indicating that these cells readily metabolized RA into more polar compounds, such as all-trans-4-hydroxy-RA and all-trans-18-hydroxy-RA. In contrast, T47D cells treated for 12 h with xenobiotics, such as phenobarbital, beta-naphthoflavone, 3-methylcholanthrene, and dimethylsulfoxide, showed lower levels of catalytic activities for 4- and 18-hydroxylases. The induction of 4- and 18-hydroxylase activities appears to be regulated at the level of transcriptional control (basal level). Competitive assays demonstrated that inhibitors and substrates for 1A, 2A, 3A, 2B, and 2C cytochrome P450 (P450 subfamilies), all-trans-retinol, and all-trans-retinal showed no inhibition of RA metabolism, but other retinoic acid derivatives competed highly with RA. The RA-inducible 4- and 18-hydroxylases showed high specificity for RA and high levels of catalytic activities, with Km and maximum velocity values for 4-hydroxylase equal to 99 nmol/L and 0.26 pmol/min.mg protein, respectively, and those for 18-hydroxylase equal to 65 nmol/L and 0.18 pmol/min.mg protein. Cell-free metabolism of RA required microsomes from RA-treated cells and NADPH, and was inhibited by liarozole, an inhibitor of P450. These data suggest that RA-inducible 4- and 18-hydroxylases may be novel P450 isozymes.
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PMID:Highly specific cytochrome P450-like enzymes for all-trans-retinoic acid in T47D human breast cancer cells. 896 30

Human 17 beta-hydroxysteroid dehydrogenase type 1 (17HSD type 1) primarily catalyzes the reduction of low activity estrone to high activity estradiol in ovarian granulosa cells and placental trophoblasts 17HSD type 1 is also present in certain peripheral tissues, such as breast tissue. In the present study we investigated the effects of retinoic acids (RAs) together with other stimuli known to modulate estradiol production and/or cell growth on expression of 17HSD type 1 in JEG-3 choriocarcinoma cells and estrogen-responsive T47D breast cancer cells. Treatment of cultured JEG-3 and T47D cells with all-trans-RA and 9-cis-RA increased reductive 17HSD activity and 17HSD type 1 messenger RNA expression severalfold in both cell lines. On the other hand, epidermal growth factor (EGF), Ca ionophore, the protein kinase C activator 12-O-tetradecanoylphorbol-13-acetate (TPA), and cAMP elevated 17HSD type 1 expression only in JEG-3 cells. Correspondingly, the effects of RAs were potentiated by EGF, TPA, and cAMP in JEG-3 cells, whereas no such phenomenon was observed in T47D cells. In JEG-3 cells, simultaneous administration of RAs with TPA and EGF maximally resulted in approximately 40- and 20-fold increases in 17HSD type 1 messenger RNA expression, respectively. The present data indicate that RAs may stimulate estradiol biosynthesis by regulating 17HSD type 1 expression in certain breast cancer and choriocarcinoma cells. The results suggest that interaction of multiple regulatory pathways is involved in maintaining high 17HSD type 1 expression in the placenta. In addition, regulation of 17HSD type 1 expression may be different in trophoblast cells from that in breast epithelial cells.
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PMID:Retinoic acids increase 17 beta-hydroxysteroid dehydrogenase type 1 expression in JEG-3 and T47D cells, but the stimulation is potentiated by epidermal growth factor, 12-O-tetradecanoylphorbol-13-acetate, and cyclic adenosine 3',5'-monophosphate only in JEG-3 cells. 904 88

Interest has been increasingly focused on all-trans-retinoic acid (tRA) and 13-cis-retinoic acid (13cRA) in cancer chemoprevention and treatment. We have examined the in vitro effects of these 2 retinoic acids (RAs) on human breast-cancer cell lines MCF-7 and ZR-75.1 (both estrogen-receptor-positive, ER+) and MDA-MB-231 (estrogen-receptor-negative, ER-), in terms of inhibition of proliferation and induction of apoptosis. Both retinoic acids exerted an evident dose-dependent growth inhibition, although in the ER- cell line the anti-proliferative effect was obtained only with the highest concentration used; the anti-proliferative activity of tRA was more evident than 13cRA on all 3 tested cell lines. tRA and 13cRA induced apoptosis in MCF-7 and MDA-MB-231 cell lines, but not in ZR-75.1. The apoptotic phenomenon was clearly time-dependent, and in our experience it was not related to the arrest in a specific phase of cell cycle. After treatment with RAs the levels of bcl-2 were reduced in MCF-7, while in ZR-75.1 and in MDA-MB-231 no treatment-related modifications were observed. An analysis of estrogen-receptor status, used as a marker of differentiation, demonstrated that after treatment with RAs the levels of estrogen receptor (ER) decreased in ZR-75.1 only. Our study indicates that the anti-proliferative effects of RAs are sustained by induction of apoptosis in MCF-7 and MDA-MB-231 cells, while in ZR-75.1 cells an induction of differentiation without apoptosis was the prevalent mechanism of growth inhibition. Our results encourage further studies on in vivo effects of these retinoids in breast cancer.
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PMID:Effects of all-trans-retinoic acid and 13-cis-retinoic acid on breast-cancer cell lines: growth inhibition and apoptosis induction. 905 65

NOR-1, NGFI-B, and Nurr1 are closely related orphan nuclear receptors implicated in diverse biological processes including cell growth and differentiation. We examined the effect of retinoic acids on the expression of these putative transcription factor genes in the breast cancer cell line MCF-7 by a quantitative reverse transcription and polymerase chain reaction. Both all-trans and 9-cis retinoic acids markedly induced NOR-1 mRNA and slightly increased Nurr1 mRNA. In contrast, NGFI-B mRNA was decreased. In the presence of cycloheximide, all-trans retinoic acid superinduced NOR-1 mRNA, whereas all-trans and 9-cis retinoic acids strongly suppressed the NGFI-B mRNA accumulation. The differential effects of retinoic acids on the expression of these genes are in contrast with the effects of forskolin and 12-O-tetradecanoylphorbol-13-acetate, both of which induced mRNAs of all three genes. These findings suggest that NOR-1, NGFI-B, and Nurr1 play distinct roles in the retinoic acid signaling in MCF-7 cells.
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PMID:Retinoic acids differentially regulate NOR-1 and its closely related orphan nuclear receptor genes in breast cancer cell line MCF-7. 907 Feb 91

Cytochrome P450-dependent oxidation is a pathway for all-trans-retinoic acid (all-trans-RA) catabolism. Induction of this catabolic pathway was studied in MCF-7 breast cancer cells. MCF-7 cells showed low constitutive all-trans-RA catabolism. Concentration-dependent induction was obtained by preincubation of the cells with all-trans-RA (10(-9) to 10(-6) M). Onset of induction was fast, being detectable within 60 min, with maximal induction (45-fold) obtained after 16 h. Enzymatic characterization of induced all-trans-RA catabolism showed an estimated Km value (Michaelis-Menten constant) of 0.33 microM and a Vmax value (maximal velocity of an enzyme-catalysed reaction) of 54.5 fmol polar all-trans-RA metabolites 10(6) cells(-1) h(-1). These kinetic parameters represent the overall formation of polar metabolites from all-trans-RA. Induction of all-trans-RA catabolism was also obtained with other retinoids, CH55 >> 13-cis-RA = all-trans-RA > 9-cis-RA > 4-keto-all-trans-RA > 4-keto-13-cis-RA > retinol. The potency of the retinoids to induce all-trans-RA catabolism was correlated to their retinoic acid receptor affinity (Crettaz et al, 1990; Repa et al, 1990; Sani et al, 1990). Induction of all-trans-RA catabolism was inhibited by actinomycin D. Furthermore, all-trans-RA did not increase cytosolic retinoic acid-binding protein (CRABP) mRNA levels. These data suggest that induction of all-trans-RA catabolism in MCF-7 cells is a retinoic acid receptor-mediated gene transcriptional event. Induced all-trans-RA catabolism was inhibited by various retinoids with decreasing potency in the order: all-trans-RA > 4-keto-all-trans-RA > 13-cis-RA > 9-cis-RA > 4-keto-13-cis-RA > retinol > CH55. The antitumoral compound liarozole-fumarate inhibited all-trans-RA catabolism with a potency similar to that of all-trans-RA.
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PMID:Induction of the oxidative catabolism of retinoid acid in MCF-7 cells. 909 55


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