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 hormone 1alpha,25(OH)(2)-vitamin D(3) (125D) binds to its nuclear receptor (VDR) to stimulate gene transcription activity. Inversion of configuration at C-20 of the side chain to generate 20-epi-1alpha,25(OH)(2)D(3) (20E-125D) increases transcription 200-5000-fold over 125D with its 20-normal (20N) side chain. This enhancement has been attributed to the VDR ligand-binding domain (LBD) having different contact sites for 20N and 20E side chains that generate different VDR conformations. We synthesized 1alpha, 25-dihydroxy-21-(3-hydroxy-3-methylbutyl)vitamin D(3) (Gemini) with two six-carbon side chains (both 20N and 20E orientations). Energy minimization calculations indicate the Gemini side chain possesses significantly more energy minima than either 125D or 20E-125D (2346, 207, and 127 minima, respectively). We compared activities of 125D, 20E-125D, and Gemini, respectively, in several assays: binding to wild-type (100%, 147%, and 38%) and C-terminal-truncated mutant VDR; transcriptional activity (of the transfected osteopontin promoter in ROS 17/2.8 cells: ED(50) 10, 0.005, and 1.0 nM); mediation of conformational changes in VDR assessed by protease clipping (major trypsin-resistant fragment of 34, 34, and 28 kDa). For inhibition of cellular clonal growth of human leukemia (HL-60) and breast cancer (MCF7) cell lines, the ED(50)(125D)/ED(50)(Gem) was respectively 380 and 316. We conclude that while Gemini readily binds to the VDR and generates unique conformational changes, none of them is able to permit a superior gene transcription activity despite the presence of a 20E side chain.
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PMID:Characterization of a novel analogue of 1alpha,25(OH)(2)-vitamin D(3) with two side chains: interaction with its nuclear receptor and cellular actions. 1089 9

While estrogens are mitogenic in breast cancer cells, the presence of estrogen receptor a (ERalpha) clinically indicates a favorable prognosis in breast carcinoma. To improve our understanding of ERalpha action in breast cancer, we used an original in vitro method, which combines transient transfection and Matrigel invasion assays to examine its effects on cell invasiveness. ERalpha expression in MDA-MB-231 breast cancer cells reduced their invasiveness by 3-fold in the absence of hormone and by 7-fold in its presence. Integrity of hormone and DNA-binding domains and activating function 2 were required for estradiol-induced inhibition, suggesting that transcriptional activation of estrogen target genes was involved. In contrast, these domains were dispensable for hormone-independent inhibition. Analysis of deletion mutants of ERalpha indicated that amino acids 179-215, containing the N-terminal zinc finger of the DNA-binding domain, were required for ligand-independent receptor action. Among different members of the nuclear receptor family, only unliganded ERalpha and ERbeta reduced invasion. Calreticulin, a Ca2+-binding protein that could interact with amino acids 206-211 of ERalpha, reversed hormone-independent ERalpha inhibition of invasion. However, since calreticulin alone also inhibited invasion, we propose that this protein probably prevents ERalpha interaction with another unidentified invasion-regulating factor. The inhibitor role of the unliganded ER was also suggested in three ERalpha-positive cell lines, where ERalpha content was inversely correlated with cell migration. We conclude that ERalpha protects against cancer invasion in its unliganded form, probably by protein-protein interactions with the N-terminal zinc finger region, and after hormone binding by activation of specific gene transcription.
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PMID:Unliganded and liganded estrogen receptors protect against cancer invasion via different mechanisms. 1089 50

The interaction of oestrogens with their intra-nuclear receptor is now recognized in its tri-dimensional aspects. A new receptor, ER beta, has been cloned and new non-genomic oestrogen effects have been reported. Hence, a better understanding of physiological mechanisms or of pathophysiological aspects, such as phyto- and xeno-oestrogens' influence on the organism, is possible. New compounds, belonging to the SERM family, are being explored. Raloxifene is now available for the prevention of post-menopausal osteoporosis. Tamoxifen has been associated with a beneficial effect for the primary prevention of breast cancer in a high-risk population. The understanding of genetic susceptibility could contribute, to better define women at risk. A dedicated primary prevention strategy in women with a high risk of breast cancer coupled with early detection through mammography will continue to improve the prognosis of this hormono-dependent cancer.
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PMID:[Endocrinolgy of estrogens: some recent developments and future applications]. 1096 95

Estrogen is the most important endocrine hormone that stimulates the growth of hormone-dependent breast cancer. The biosynthesis of estrogens in breast tissue is catalyzed by cytochrome P450 aromatase (P450arom). The expression of P450arom is controlled by the tissue- or cell-specific promoters of CYP 19 gene. The roles of nuclear receptor systems for the aromatase activity in breast cancer cells have not yet been fully investigated. In the present study, we investigated the effects of a nuclear receptor system constituted by retinoid X receptor (RXR) and its heterodimer partner on the aromatase activity in a cultured MCF-7 human breast cancer cell line, using each selective ligand for retinoic acid receptor (RAR) (TTNPB), RXR (LG100268), PPARgamma (troglitazone), and vitamin D(3) receptor (vitamin D(3)). The treatment of the cells with TTNPB or LG100268 alone for 2 days increased slightly the aromatase activity, but the increases were not statistically significant in comparison to the control. However, the combined treatment with TTNPB (10(-7) M) and LG100268 (10(-7) M) caused a dramatic stimulation of the aromatase activity. The treatment with other ligands had little or no effect on the aromatase activity. The stimulation of the aromatase activity by TTNPB plus LG100268 was dose-dependent, and a maximum stimulation was observed at 10(-7) M in both compounds. In addition, the increase in the aromatase activity was accompanied by an increase in the P450arom mRNA levels determined by RT-PCR in MCF-7 cells. The increase in the P450arom transcript was also found to be related to the specific usage of promoter 1a of the CYP 19 gene based on the analysis using RT-PCR. This is the first demonstration that a nuclear receptor system constituted by a RAR:RXR heterodimer is involved in the regulation of aromatase activity in MCF-7 breast cancer cells.
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PMID:A nuclear receptor system constituted by RAR and RXR induces aromatase activity in MCF-7 human breast cancer cells. 1099 32

Estrogens increase the expression of vascular endothelial growth factor (VEGF) mRNA in the rodent uterus. This regulatory effect is rapid, beginning within 1 hr after hormone treatment, dose dependent, and blocked by the pure antiestrogen ICI 182,780. The induction of the transcript is blocked by inhibitors of RNA but not of protein synthesis, and we have recently identified estrogen response elements in the VEGF gene. Collectively, these findings indicate that estrogens regulate uterine VEGF expression at the transcriptional level via the classical nuclear estrogen receptor pathway. Estrogen induction of VEGF occurs in the stromal layer of the rodent uterus, and estradiol induces expression of VEGF transcript levels in cultured human uterine stromal cells. Progestins also induce VEGF expression in the rodent uterus, although the effect is less marked and slower in onset than estrogenic effects. The effect of progestins is blocked by the antiprogestin mifepristone (RU-486), suggesting that it is also mediated by a classical nuclear receptor pathway. In addition, progestins regulate expression of VEGF mRNA and protein in cultured human T47-D breast cancer cells. The development of uterine leiomyomas is associated with exposure to ovarian sex steroids, abnormal uterine bleeding is commonly seen in patients with leiomyomas, and fibroids require an increased vascular supply for their growth. These observations suggest that VEGF and other angiogenic factors may represent potential targets for the treatment and prevention of uterine fibroids.
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PMID:Regulation of vascular endothelial growth factor expression by estrogens and progestins. 1103 83

HER2/neu (erbB-2) overexpression has been causally associated with tamoxifen resistance in human breast cancer cells. Forced expression of HER2 in MCF-7 breast cancer cells resulted in mitogen-activated protein kinase (MAPK) hyperactivity and tamoxifen resistance. Inhibition of HER2 and MAPKs with AG1478 and U0126, respectively, as well as dominant-negative MEK-1/2 constructs restored the inhibitory effect of tamoxifen on estrogen receptor (ER)-mediated transcription and cell proliferation. Both AG1478 and U0126 also restored the tamoxifen-mediated association of ER with nuclear receptor corepressor (N-CoR) in the antiestrogen-resistant MCF-7 cells. Treatment with a combination of tamoxifen and a HER2 kinase inhibitor reduced tumor MAPK activity and markedly prevented growth of HER2-overexpressing MCF-7 xenografts in athymic mice. Thus, blockade of HER2 and MAPK signaling may enhance tamoxifen action and abrogate antiestrogen resistance in human breast cancer.
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PMID:Inhibition of HER2/neu (erbB-2) and mitogen-activated protein kinases enhances tamoxifen action against HER2-overexpressing, tamoxifen-resistant breast cancer cells. 1105 87

Estrogen receptors (ERs) are members of the nuclear receptor superfamily and act classically as transcription factors. However, it has been noted that estrogens could have early cell effects (within a few minutes) that cannot be explained by transcription activation and protein synthesis. There is now an emerging body of evidence that estrogens, like many other steroids, may cause rapid activation of signal transduction pathways. These non-genomic effects involve common second messengers, such as increased intracellular calcium levels phosphoinositide turnover or cAMP accumulation. Recent studies have also shown that estrogens can stimulate the MAP kinase signaling pathway through ERs. These effects have been observed in various estrogen target cells, including endothelial cells, osteoblasts, neurons and breast cancer cells. The ER membrane signaling pathway is thus a new component that could be taken into account to understand the complex modulation of estrogen effects in specific tissues. It could also be a new therapeutic target for the treatment of neurodegenerative, cardiovascular or breast cancer diseases.
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PMID:[Non-genomic steroid effects: estrogen action revisited]. 1114 26

Estrogen (E2) palys critical roles in the development of tumors in female reproductive organs. Development of most breast cancers is dependent on E&sub2; in most cases. Most E&sub2; actions are considered to be exerted through two subtypes of Estrogen receptors (ERs), ERalpha and ERbeta. ERs belong to the nuclear receptor superfamily, and act as ligand-inducible transcription factors to activate transcription of a particular set of the target genes. Ligand-bound ER recruits at least two distinct classes of coactivator complexes. In estrogen-dependent breast cancer, growth factors are shown to often act synergisticaly with E&sub2;, and the breast cancer often become resistant to treatment of estogen antagonists. However, the molecular basis of this coupled regulation of growth factor and ER-mediated signaling and hormone-resistance are largely unknown. We have previously shown that MAP (mitogen-activated protein) kinase (MAPK) activated by growth factors phosphorylates and potentiates the N-terminal transactivation function (AF-1), indicating a possible molecular mechanism of a novel cross-talk between two signalings (Kato et al, 1995). Furthermore, we have identified a coactivator that specifically interacts with ER alpha AF-1 (Endoh et al, 1999). In this review, this cross-talk is discussed in terms of the transactivation function of ERs and their coactivators.
Breast Cancer 2001
PMID:Estrogen receptor-mediated cross-talk with growth factor signaling pathways. 1118 Jul 60

Estrogen receptors are members of the nuclear receptor steroid family that exhibit specific structural features, ligand-binding domain sequence identity and dimeric interactions, that single them out. The crystal structures of their DNA-binding domains give some insight into how nuclear receptors discriminate between DNA response elements. The various ligand-binding domain crystal structures of the two known estrogen receptor isotypes (alpha and beta) allow one to interpret ligand specificity and reveal the interactions responsible for stabilizing the activation helix H12 in the agonist and antagonist positions.
Breast Cancer Res 2000
PMID:Estrogen receptor transcription and transactivation: Structure-function relationship in DNA- and ligand-binding domains of estrogen receptors. 1125 Jul 28

Human breast tumorigenesis is promoted by the estrogen receptor pathway, and nuclear receptor coactivators are thought to participate in this process. Here we studied whether one of these coactivators, AIB1 (amplified in breast cancer 1), was rate-limiting for hormone-dependent growth of human MCF-7 breast cancer cells. We developed MCF-7 breast cancer cell lines in which the expression of AIB1 can be modulated by regulatable ribozymes directed against AIB1 mRNA. We found that depletion of endogenous AIB1 levels reduced steroid hormone signaling via the estrogen receptor alpha or progesterone receptor beta on transiently transfected reporter templates. Down-regulation of AIB1 levels in MCF-7 cells did not affect estrogen-stimulated cell cycle progression but reduced estrogen-mediated inhibition of apoptosis and cell growth. Finally, upon reduction of endogenous AIB1 expression, estrogen-dependent colony formation in soft agar and tumor growth of MCF-7 cells in nude mice was decreased. From these findings we conclude that, despite the presence of different estrogen receptor coactivators in breast cancer cells, AIB1 exerts a rate-limiting role for hormone-dependent human breast tumor growth.
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PMID:Ribozyme targeting demonstrates that the nuclear receptor coactivator AIB1 is a rate-limiting factor for estrogen-dependent growth of human MCF-7 breast cancer cells. 1132 19


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