Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05412 (c-Jun)
 11,453 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The focus of this study was to develop retinoic acid receptor (RAR) RAR alpha/beta selective agonists with anticancer efficacy and reduced toxicity associated with RAR gamma activity. In these studies, we report the identification and characterization of high-affinity RAR alpha/beta selective agonists with limited RAR gamma activity. These compounds inhibited human tumor cell line proliferation with similar efficacy to that observed for a pan-RAR agonist. However, for most tumor cell lines, the efficacy of these compounds was restricted to the micromolar range. To determine whether the RAR alpha/beta selective agonists could be additive or synergistic with existing agents, we investigated the effects of combining RAR alpha/beta selective agonists with various cytotoxic agents. Our results showed that the alpha/beta selective retinoids dramatically lowered the effective dose of Taxol needed to induce cytotoxicity of a wide range of tumor cell lines. This synergy was specific to tubulin-modifying agents and could not be observed with a variety of other cytotoxic agents of diverse function. Examination of pathways common to Taxol and retinoid signaling revealed that this synergy was related in part to effects on Bcl-2 expression/phosphorylation as well as the activity of the c-Jun NH(2)-terminal kinase and activator protein-1. In contrast, the tubulin polymerization induced by Taxol was not further affected by cotreatment with a variety of retinoid receptor ligands. These observations indicate that potent RAR alpha/beta selective agonists may be of therapeutic benefit in combination with Taxol therapy.
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PMID:Synergistic cytotoxicity exhibited by combination treatment of selective retinoid ligands with taxol (Paclitaxel). 1175 88

4-(N-Hydroxyphenyl)retinamide (also known as 4-HPR or fenretinide), a synthetic amide of all-trans retinoic acid (RA), has been implicated as a promising anticancer agent associated with reducing the toxicity related to RA. However, the low plasma levels of 4-HPR in patients limited clinical trials, leading to a search for derivatives with better efficacy. In this study, we synthesized a series of 4-HPR derivatives in good yields by introducing acetate (compound 1). propionate (2). pyruvate (3). butyrate (4). or stearate (5). to the 4-hydroxylphenyl moiety of 4-HPR. In our initial proliferation assays, we identified compound 3 as the most cytotoxic of the series against four ovarian cancer cell lines (OVCAR-3, PA-1, 2774, and SKOV-3). Dose-response curves yielded IC(50) values of 3.75-7.75 microM for AtRA, 2.80-5.50 microM for 9-cis RA, 0.65-4.05 microM for 4-HPR, and 0.25-0.75 microM for compound 3, depending on the cell type treated. Nuclear staining with 4',6-diamidino-2-phenylindole (DAPI) and DNA fragmentation assays clearly indicated that the antiproliferative effect of compound 3 was mediated by apoptosis. In contrast to natural retinoids, both 4-HPR and compound 3 activated two (RARbeta and RARgamma) of the three retinoic acid receptor (RAR) subtypes tested, but did not activate any of the three retinoid X receptors (RXRs), as determined by transcription assays in OVCAR-3 cells. However, like natural retinoids, 4-HPR and compound 3 actively suppressed c-Jun transcriptional activity. Thus, compound 3 not only showed more potent antiproliferative activity than any other retinoid derivatives tested, but also effectively inhibited the c-Jun activity that has been implicated in tumor promotion and invasion. These results, together with compound 3's selectivity for RAR subtypes, suggest that compound 3 could be an effective anticancer drug for ovarian cancer, with less toxicity than RA.
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PMID:Potent cytotoxic effects of novel retinamide derivatives in ovarian cancer cells. 1451 46

Expression of the nuclear retinoic acid receptor beta2 (RARbeta2) gene is often disturbed in cervical carcinoma cells. One important mechanism by which RARbeta2 can exert growth inhibitory function is based on its ability to repress the AP-1 transcription factor in a ligand-dependent manner. Because less is known about the biological effects of RARbeta in the absence of ligand, the corresponding cDNA was stably introduced into HPV18-positive HeLa cervical carcinoma cells. In the present study we describe a novel mechanism by which AP-1 becomes inactivated. Constitutive expression of nonliganded RARbeta abrogated both AP-1 binding affinity and activity by a selective degradation of the c-Jun protein as major dimerization partner, without substitution by other members of the Jun family. Blockage of the proteasomal pathway completely rescued c-Jun and reconstituted the AP-1 function. Moreover, HeLa RARbeta2 clones treated either with tumor necrosis factor-alpha or transfected with a constitutive active upstream mitogen-activated protein kinase (MEKK1Delta) also resulted in c-Jun phosphorylation and restoration of AP-1 affinity and functionality similar to that found in nontransfected parental HeLa cells. These data revealed an important cross-talk between trans-repression of AP-1 and nonliganded RARbeta in human papillomavirus-positive cells. Because AP-1 activity was not irreversibly disturbed, but could be switched on through activation of the Jun N-terminal kinase pathway, a model for the transient activation of AP-1 even in the presence of RARbeta as repressor is suggested.
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PMID:Ectopic expression of nonliganded retinoic acid receptor beta abrogates AP-1 activity by selective degradation of c-Jun in cervical carcinoma cells. 1530 38

BACKGROUND: Lipopolysaccharide (LPS) treatment of animals down-regulates the expression of hepatic genes involved in a broad variety of physiological processes, collectively known as the negative hepatic acute phase response (APR). Retinoid X receptor alpha (RXRalpha), the most highly expressed RXR isoform in liver, plays a central role in regulating bile acid, cholesterol, fatty acid, steroid and xenobiotic metabolism and homeostasis. Many of the genes regulated by RXRalpha are repressed during the negative hepatic APR, although the underlying mechanism is not known. We hypothesized that inflammation-induced alteration of the subcellular location of RXRalpha was a common mechanism underlying the negative hepatic APR. RESULTS: Nuclear RXRalpha protein levels were significantly reduced (~50%) within 1-2 hours after low-dose LPS treatment and remained so for at least 16 hours. RXRalpha was never detected in cytosolic extracts from saline-treated mice, yet was rapidly and profoundly detectable in the cytosol from 1 hour, to at least 4 hours, after LPS administration. These effects were specific, since the subcellular localization of the RXRalpha partner, the retinoic acid receptor (RARalpha), was unaffected by LPS. A potential cell-signaling modulator of RXRalpha activity, c-Jun-N-terminal kinase (JNK) was maximally activated at 1-2 hours, coincident with maximal levels of cytoplasmic RXRalpha. RNA levels of RXRalpha were unchanged, while expression of 6 sentinel hepatic genes regulated by RXRalpha were all markedly repressed after LPS treatment. This is likely due to reduced nuclear binding activities of regulatory RXRalpha-containing heterodimer pairs. CONCLUSION: The subcellular localization of native RXRalpha rapidly changes in response to LPS administration, correlating with induction of cell signaling pathways. This provides a novel and broad-ranging molecular mechanism for the suppression of RXRalpha-regulated genes in inflammation.
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PMID:Endotoxin leads to rapid subcellular re-localization of hepatic RXRalpha: A novel mechanism for reduced hepatic gene expression in inflammation. 1531 34

Benzo[a]pyrene diol epoxide (BPDE, a carcinogen present in tobacco smoke and environmental pollution) has been shown to suppress retinoic acid receptor-beta2 (RAR-beta(2)) and induce cyclooxygenase-2 (COX-2) expression. Restoration of RAR-beta(2) inhibited growth and colony formation of esophageal cancer cells, which was correlated with COX-2 suppression. In this study, we investigated the molecular mechanisms for RAR-beta(2)-mediated suppression of COX-2 expression using BPDE as a tool. We found that BPDE-induced COX-2 expression was through inhibition of RAR-beta(2) and consequently, induction of epidermal growth factor receptor (EGFR), extracellular signal-regulated protein kinases 1/2 (Erk1/2) phosphorylation, and c-Jun expression. Esophageal cancer cells that do not express RAR-beta(2) did not respond to BPDE for induction of COX-2. BPDE was also unable to induce COX-2 expression after RAR-beta(2) expression was manipulated in these esophageal cancer cells. Furthermore, BPDE induced time-dependent methylation of RAR-beta(2) gene promoter in esophageal cancer cells. Transfection of RAR-beta(2) expression vector into esophageal cancer cells suppressed expression of EGFR, Erk1/2 phosphorylation, c-Jun, and COX-2. In addition, co-treatment of RAR-beta(2)-positive cells with BPDE and the MEK1/2 inhibitor U0126 caused little change in c-Jun and COX-2 expression. This study demonstrated that BPDE-suppressed expression of RAR-beta(2) results in COX-2 induction and restoration of RAR-beta(2) expression reduces COX-2 protein in esophageal cancer cells, thereby further supporting our previous finding that RAR-beta(2) plays an important role in suppressing esophageal carcinogenesis.
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PMID:Induction of cyclooxygenase-2 by benzo[a]pyrene diol epoxide through inhibition of retinoic acid receptor-beta 2 expression. 1617 Mar 69

Many complementary or competing signalling pathways bear an influence on the myometrium at any one time, and because the retinoic acid signalling pathway influences differentiation of a wide array of human tissues, this may be one of the determinants of myometrial differentiation during pregnancy. We have explored the novel hypothesis that the retinoids may act as important regulators in controlling the differentiated state of the human myometrium during pregnancy by characterizing the expression profiles for cellular retinoid-binding proteins CRBPI, CRABPI and CRABPII in non-pregnant, pregnant (non-labouring) and labouring human myometrium taken from the functionally distinct upper and lower uterine segments. In addition, we have investigated the effect of all-trans retinoic acid (ATRA) on the expression of several retinoic acid response genes including cyclooxygenase-2 (COX-2) and connexin-43 (Cx-43). Different spatial and temporal patterns of expression were observed for CRBPI, CRABPI and CRABPII within the upper and lower uterine segments through the three trimesters of pregnancy and in labour. Furthermore, the expression of COX-2, Cx-43, CRABPI, the transcription factor c-Jun and the retinoic acid receptor RARbeta altered in response to different concentrations of ATRA, suggesting that the differential expression of cellular retinoid-binding proteins may lead to different levels of retinoic acid being delivered to its nuclear targets, leading to the differential expression of specific target genes within the myometrium during pregnancy.
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PMID:Characterization of cellular retinoid-binding proteins in human myometrium during pregnancy. 1695 71

PU.1 directs the hematopoietic stem cell to the lymphoid-myeloid progenitor (LMP) and interacts with GATA-binding protein 1 to inhibit commitment to the megakaryocyte-erythroid progenitor. The CCAAT/enhancer-binding protein (C/EBP)alpha then directs the LMP to the granulocyte-monocyte progenitor (GMP) stage, while inhibiting lymphoid development via cross-inhibition of Pax5 and potentially other regulators. Increased PU.1 activity favors monocytic commitment of the GMP. Induction of PU.1 by C/EBPalpha and interaction of PU.1 with c-Jun elevates PU.1 activity. Zippering of C/EBPalpha with c-Jun or c-Fos also contributes to monocyte lineage specification. An additional factor, potentially an Id1-regulated basic helix-loop-helix protein, may be required for the GMP to commit to the granulocyte lineage. Egr-1, Egr-2, Vitamin D Receptor, MafB/c: Fos and PU.1:interferon regulatory factor 8 complexes direct further monocytic maturation, while retinoic acid receptor (RAR) and C/EBPepsilon direct granulopoiesis. Both C/EBPalpha and RARs induce C/EBPepsilon, and PU.1 is also required, albeit at lower levels, for granulocytic maturation. HoxA10 and CAAT displacement protein act as transcriptional repressors to delay expression of terminal differentiation. Gfi-1 and Egr-1,2/Nab2 complexes repress each other to maintain myeloid lineage fidelity. NF-kappaB directly binds and cooperates with C/EBPbeta to induce the inflammatory response in mature myeloid cells and potentially also cooperates with C/EBPalpha to regulate early myelopoiesis.
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PMID:Transcriptional control of granulocyte and monocyte development. 1793 88

Tobacco smoke is an important risk factor for various human cancers, including esophageal cancer. How benzo [a]pyrene diol epoxide (BPDE), a carcinogen present in tobacco smoke as well as in environmental pollution, induces esophageal carcinogenesis has yet to be defined. In this study, we investigated the molecular mechanism responsible for BPDE-suppressed expression of retinoic acid receptor-beta2 (RAR-beta2) in esophageal cancer cells. We treated esophageal cancer cells with BPDE before performing methylation-specific polymerase chain reaction (MSP) to find that BPDE induced methylation of the RAR-beta2 gene promoter. We then performed chromatin immunoprecipitation (ChIP) assays to find that BPDE recruited genes of the methylation machinery into the RAR-beta2 gene promoter. We found that BPDE recruited DNA (cytosine-5-)-methyltransferase 3 alpha (DNMT3A), but not beta (DNMT3B), in a time-dependent manner to methylate the RAR-beta2 gene promoter, which we confirmed by reverse transcription-polymerase chain reaction (RT-PCR) analysis of the reduced RAR-beta2 expression in these BPDE-treated esophageal cancer cell lines. However, BPDE did not significantly change DNMT3A expression, but it slightly reduced DNMT3B expression. DNA methylase inhibitor 5-aza-2'-deoxycytidine (5-Aza) and DNMT3A small hairpin RNA (shRNA) vector antagonized the effects of BPDE on RAR-beta2 expressions. Transient transfection of the DNMT3A shRNA vector also antagonized BPDE's effects on expression of RAR-beta2, c-Jun, phosphorylated extracellular signal-regulated protein kinases 1/2 (ERK1/2), and cyclooxygenase-2 (COX-2), suggesting a possible therapeutic effect. The results of this study form the link between the esophageal cancer risk factor BPDE and the reduced RAR-beta2 expression.
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PMID:Benzo[a]pyrene diol epoxide suppresses retinoic acid receptor-beta2 expression by recruiting DNA (cytosine-5-)-methyltransferase 3A. 2042 65

Insulin resistance is one of the major factors contributing to metabolic diseases, but the underlying mechanisms are still poorly understood. As an important cofactor, B-cell translocation gene 1 (BTG1) is involved in many physiologic processes; however, the direct effect of BTG1 on insulin sensitivity has not been described. In our study, BTG1 overexpression or knockdown improved or impaired insulin signaling in vitro, respectively. In addition, adenovirus-mediated BTG1 overexpression improved insulin sensitivity in wild-type (WT) and insulin-resistant leptin-receptor mutated (db/db) mice. In addition, transgenic BTG1-overexpressing mice were resistant to high-carbohydrate diet-induced insulin resistance. Adenovirus-mediated BTG1 knockdown consistently impaired insulin sensitivity in WT and insulin-sensitive leucine-deprived mice. Moreover, hepatic BTG1 expression was increased by leucine deprivation via the mammalian target of rapamycin/ribosomal protein S6 kinase 1 pathway. Furthermore, c-Jun expression was up-regulated by BTG1, and adenovirus-mediated c-Jun knockdown blocked BTG1-improved insulin signaling and insulin sensitivity in vitro and in vivo. Finally, BTG1 promoted c-Jun expression via stimulating c-Jun and retinoic acid receptor activities. Taken together, these results identify a novel function for BTG1 in the regulation of hepatic insulin sensitivity and provide important insights into the nutritional regulation of BTG1 expression.- Xiao, F., Deng, J., Yu, J., Guo, Y., Chen, S., Guo, F. A novel function of B-cell translocation gene 1 (BTG1) in the regulation of hepatic insulin sensitivity in mice via c-Jun.
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PMID:A novel function of B-cell translocation gene 1 (BTG1) in the regulation of hepatic insulin sensitivity in mice via c-Jun. 2639 36


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