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Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nuclear hormone receptors are acting as transcription factors in the cell nucleus. They regulate gene expression of hormonal regulated target genes. The role of hormone in the transcriptional process is to modulate and change the nuclear receptor functionality. Receptors contain a DNA binding domain that enables them to bind to hormone response elements of target genes. Nuclear hormone receptors bind to lipophilic hormones produced by the organisms' endocrine system, which links the secretion of hormones directly to regulation of gene expression of responsive tissues. In recent years increasing numbers of naturally occurring mutations of a variety of nuclear hormone receptor genes were identified in patients showing abnormalities in hormonal response. Here, we present an overview of nuclear receptors and their mutant forms which cause human syndromes or are associated with cancer progression. The major scope of this article is to give an overview on the structural-functional relationship and based on that, to understand the effects of naturally occurring receptor mutants on the molecular level. Thereby, functional aberrations of naturally occurring receptors for androgen, glucocorticoids, mineralocorticoid, estrogen, vitamin D3, retinoic acid, and thyroid hormone as well as the orphan receptor DAX1 are discussed.
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PMID:Nuclear receptors: structure, function and involvement in disease. 957 Jan 31

Estrogens play an important role in the development and progression of breast cancer. Although estrogen antagonist treatment often results in the arrest or remission of breast cancer growth, most breast cancers recur and become resistant to estrogen ablative therapy. The molecular mechanisms underlying these actions remain largely undefined. It is hypothesized that tumor cells of an advanced stage may develop compensatory pathways to stimulate the expression of estrogen receptor (ER) target genes or downstream events, independent of estrogen action. In this study, we developed a chimeric repressor to turn off ER target genes with the aim of directly investigating the role of ER target genes in tumor progression. The chimeric repressor contains the ER DNA-binding domain that recognizes estrogen response elements (EREs), a Krupple-associated box (KRAB) repressor domain which silences target genes when tethered to their promoter regions and a truncated progesterone ligand-binding domain which responds only to the exogenous synthetic ligand, RU486. The ability of the chimeric repressor to block ER mediated transcription was assessed in transient transfection assays. ER-induced reporter activity was inhibited by the repressor in a dose-dependent manner, with the maximum effect of more than 80% reduction. The inhibitory activity of the chimeric repressor was tightly under the control of RU486. Effective suppression by the repressor on the natural promoter of ER target gene, complement factor 3 (C3), was also observed. The inhibitory activity was specific to ER, since the repressor has no effect on other nuclear receptor systems tested. Furthermore, the repressor could inhibit the 4-hydroxy-tamoxifen (4OH-T)-induced ER activity. Taken together, our results demonstrate that the inducible repressor we have designed could specifically inhibit ER target gene expression in response to an exogenous synthetic ligand. This repressor will provide a useful tool to study the role of ER target genes in breast cancer progression and it may be potentially useful for gene therapy of breast cancer.
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PMID:Suppression of gene expression by tethering KRAB domain to promoter of ER target genes. 1041 89

Peroxisome proliferator-activated receptor (PPAR) alpha is a member of the nuclear receptor superfamily of ligand-activated transcription factors. PPARalpha is activated by peroxisome proliferators and fatty acids and has been shown to be involved in the transcriptional regulation of genes involved in fatty acid metabolism. In rodents, the PPARalpha-mediated change in such genes results in peroxisome proliferation and can lead to the induction of hepatocarcinogenesis. Using the mRNA differential display technique and Northern blot analysis, we have shown that chronic exposure of the prostate cancer epithelial cell line LNCaP to the synthetic androgen mibolerone results in the down-regulation of PPARalpha mRNA. Levels of PPARalpha mRNA are reduced to approximately 40% of control levels in LNCaP cells exposed to 10 nM mibolerone for 96 h. PPARalpha-responsive reporter plasmids derived from human ApoA-II and muscle carnitine palmitoyl-transferase I genes were stimulated by the PPARalpha-activating ligand Wy-14,643 in LNCaP cells. In situ hybridization and immunohistochemical analyses showed that PPARalpha expression in prostate is confined to epithelial cells. In benign prostatic tissue, PPARalpha mRNA was either absent or only weakly expressed in the basal epithelial cells. In 11 of 18 (61%) poorly differentiated (Gleason score, 8-10) prostatic carcinoma specimens, there was strong expression of PPARalpha compared with 4 of 12 Gleason score 7 tumors and 2 of 11 Gleason score 3-6 tumors (P < 0.01). These results suggest that PPARalpha is found and functional in human prostate and is down-regulated by androgens. The role of PPARalpha may be to integrate dietary fatty acid and steroid hormone signaling pathways, and its overexpression in advanced prostate cancer may indicate a role in tumor progression with the potential involvement of dietary factors.
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PMID:Peroxisome proliferator-activated receptor alpha is an androgen-responsive gene in human prostate and is highly expressed in prostatic adenocarcinoma. 1095 10

The nuclear receptor for the female hormone progesterone (PR) is widely expressed in uterine cancer. PR is expressed as two proteins (PRA and PRB) with different functions, and in vitro evidence reveals PRA to inhibit PRB function, so the cellular ratio of PRA:PRB is likely to be an important determinant of progesterone action. The relative expression of PRA and B and their involvement in the pathogenesis of endometrial cancer is not known. The aims of this study were to determine PRA and B expression by dual immunofluorescent histochemistry in endometrial adenocarcinomas compared with expression in normal and hyperplastic glands, and to correlate expression in tumors with clinical features including grade. Significantly lower PR levels were found in tumors compared with normal glands and areas of complex atypical hyperplasia within the same specimen. The normal glands expressed both of the isoforms at similar levels, whereas there was increased predominance of one isoform in hyperplastic areas and in tumors, which suggested that the loss of coordinated expression of PR isoforms was an early event in tumor progression. The majority of tumors [27 (58%) of 46] expressed only one PR isoform, and the proportion expressing either PRA or B was the same [14 (30%) of 46, and 13 (28%) of 46, respectively]. One-half of all tumors ([23 (50%) of 46] expressed either PRA only or a predominance of PRA, and a few tumors [10 (22%) of 46] expressed comparable levels of PRA and B. Similar levels of PRA and B were noted only in FIGO grade 1 tumors, whereas higher grades (2 and 3) were associated with a predominance of one isoform. In summary, expression of only one PR isoform was common in endometrial cancers, which indicates that the decreased PR levels observed in these cancers arise from the loss of one PR isoform. Expression of a single PR isoform was associated with higher clinical grade, which suggests a relationship between the loss of PR isoform expression and features of poorer prognosis. Disruption of relative PR isoform expression was observed in complex atypical hyperplasia, which suggests that early alterations in the ratio of PRA:PRB may precede and/or be implicated in the development of endometrial adenocarcinoma. Alterations in the ratio of PR isoform expression are likely to cause disordered regulation of target genes, resulting in altered progestin action in the uterus, and this may be involved in the pathogenesis of endometrial cancer.
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PMID:Relative expression of progesterone receptors A and B in endometrioid cancers of the endometrium. 1138 93

Differential acetylation of histones and transcription factors plays an important regulatory role in developmental processes, proliferation and differentiation. Aberrant acetylation or deacetylation leads to such diverse disorders as leukemia, epithelial cancers, fragile X syndrome and Rubinstein-Taybi syndrome. The various groups of histone acetyltransferases (CBP/p300, GNAT, MYST, nuclear receptor coactivators and TAFII250) and histone deacetylases are surveyed with regard to their possible or known involvement in cancer progression and human developmental disorders. Current treatment strategies are discussed, which are still mostly limited to histone deacetylase inhibitors such as trichostatin A and butyrate.
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PMID:Histone acetylation and disease. 1143 34

A balance between proliferation, differentiation, migration and death of cells is critical for the normal development of an organism. Perturbations of this balance can contribute to cancer development. The p21-activated serine/threonine kinases (Paks) play an important role in a variety of cellular functions including cell morphogenesis, motility, survival, angiogenesis, and mitosis. Paks were initially identified as an effector molecules of RHO GTPases; however, recent evidence that they can be activated in both GTPase-dependent and -independent manners expands our understanding of their physiologic functions. Paks play an important role in growth factor signaling, leading to cytoskeletal reorganization that subsequently influences growth factor-mediated cell migration and metastasis functions. Recent findings that Paks play a role in mitosis, nuclear receptor-signaling and deregulation of Pak in cancer cells suggest that these kinases play an important role in both normal development and cancer progression. In this review, we summarize the results of recent advances into the role of Paks in tumorigenesis and metastasis.
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PMID:P21-activated kinases in human cancer. 1288 13

Ski is an oncoprotein that represses transforming growth factor-beta and nuclear receptor signaling. Despite evidence that relates increased Ski protein levels directly with tumor progression in human cells, the signaling pathways that regulate Ski expression are mostly unidentified. Here we show that the Ski protein levels vary throughout the cell cycle, being lowest at G0/G1. This reduction in Ski protein levels results from proteosomal degradation as suggested by in vivo ubiquitination of Ski and the effects of proteosomal inhibitors. In contrast, an upregulation of the Ski protein was observed in cells going through mitosis. At this stage, we also found that Ski is phosphorylated. In vitro and in vivo data suggest that the phosphorylation of Ski in mitosis is carried out by the main kinase controlling the progression of mitosis, namely cdc2/cyclinB. Interestingly, immunofluorescence experiments, supported by biochemical data, show not only an increase in the Ski protein levels, but also a dramatic redistribution of Ski to the centrosomes and mitotic spindle throughout mitosis. Studies to date on Ski have focused on its role as a transcriptional regulator. However, Ski's increased level and specific relocalization during mitosis suggest that Ski might play a distinct role during this particular phase of the cell cycle.
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PMID:The Ski oncoprotein is upregulated and localized at the centrosomes and mitotic spindle during mitosis. 1580 49

Liver receptor homolog-1 (LRH-1) is a nuclear receptor previously known to have distinct functions during mouse development and essential roles in cholesterol homeostasis. Recently, a new role for LRH-1 has been discovered in tumor progression, giving LRH-1 potential transforming functions. In order to identify critical factors stimulating LRH-1 expression leading to deregulated cellular proliferation, we studied its expression and its regulation in several breast cancer cell lines. We observed that LRH-1 expression was increased in estrogen receptor (ER) alpha expressing cell lines, whereas weak-to-no expression was found in nonexpressing ERalpha cell lines. In MCF7, LRH-1 expression was highly induced after treatment with 17beta-estradiol (E2). This transcriptional regulation was the result of a direct binding of the ER to the LRH-1 promoter, as demonstrated by gelshift and chromatin immunoprecipitation assays. Interestingly, siRNA-mediated inactivation of LRH-1 decreased the E2-dependent proliferation of MCF7 cells. Finally, LRH-1 protein expression was detected by immunohistochemistry in tumor cells of human mammary ductal carcinomas. Altogether, these data demonstrate that LRH-1 is transcriptionally regulated by the ER alpha and reinforce the hypothesis that LRH-1 could exert potential oncogenic effects during breast cancer formation.
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PMID:The nuclear receptor liver receptor homolog-1 is an estrogen receptor target gene. 1609 43

The endocrine signaling governing nuclear receptor (NR) function has been known for several decades to play a crucial role in the onset and progression of several tumor types. Notably among these are the estrogen receptor (ER) in breast cancer and androgen receptor (AR) in prostate cancer. Other nuclear receptors may be involved in cancer progression including the peroxisome-proliferator activating receptor gamma (PPARgamma), which has been implicated in breast, thyroid, and colon cancers. These NR are phylogenetically conserved modular transcriptional regulators, which like histones, undergo post-translational modification by acetylation, phosphorylation and ubiquitination. Importantly, the transcriptional activity of the receptors is governed by the coactivator p300, the activity of which is thought to be rate-limiting in the activity of these receptors. Histone acetyltransferases (HATs) and histone deacetylases (HDACs), modify histones by adding or removing an acetyl group from the epsilon amino group of lysines within an evolutionarily conserved lysine motif. Histone acetylation results in changes in chromatin structure in response to specific signals. These enzymes can also directly catalyze the NRs themselves, thus modifying signals at the receptor level. The post-translational modification of NR which is regulated by hormones, alters the NR function toward a growth promoting receptor. The deacetylation of NR is mediated by TSA-sensitive and NAD-dependent deacetylases. The regulation of NR by NAD-dependent enzymes provides a direct link between intracellular metabolism and hormone signaling.
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PMID:The functional significance of nuclear receptor acetylation. 1729 55

Peroxisome proliferator activated receptor (PPAR) gamma is a nuclear receptor involved primarily in lipid and glucose metabolism. PPARgamma is also expressed in several cancer types, and has been suggested to play a role in tumor progression. PPARgamma agonists have been shown to reduce the growth of colorectal carcinoma cells in culture and in xenograft models. Furthermore, the PPARgamma agonist thiazolidinedione has been shown to reduce metastasis in a murine model of rectal cancer. Since the chemokine receptor CXCR4 has emerged as an important player in tumorigenesis, particularly in the process of metastasis, we sought to determine if PPARgamma agonists might act in part by reducing CXCR4 expression. We found that rosiglitazone, a thiazolidinedione PPARgamma agonist used primarily in the treatment of type 2 diabetes, significantly reduced cell-surface expression of CXCR4 protein on HT-29 human colorectal carcinoma cells. This effect occurred at concentrations as low as 1 nM, and was first evident after 8 h of drug exposure. CXCR4 mRNA was also down-regulated after treatment with rosiglitazone, indicating that the effect occurs at the level of transcription. Four other thiazolidinedione compounds (ciglitazone, pioglitazone, troglitazone, and MCC555) also significantly reduced CXCR4 expression. To confirm the involvement of PPARgamma in thiazolidinedione-induced CXCR4 down-regulation, we used PPARgamma antagonists GW9662 and T0070907, both of which completely blocked the effect of rosiglitazone on CXCR4 expression. Furthermore, HT-29 cells in which PPARgamma expression was reduced using shRNA were less responsive to rosiglitazone. In conclusion, we have shown that thiazolidinedione compounds reduce CXCR4 mRNA and cell-surface protein expression in a PPARgamma-dependent manner.
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PMID:Thiazolidinedione drugs down-regulate CXCR4 expression on human colorectal cancer cells in a peroxisome proliferator activated receptor gamma-dependent manner. 1739 24


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