938 resultados para N-MYC DOWNSTREAM-REGULATED GENE 1 PROTEIN
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Pós-graduação em Medicina Veterinária - FCAV
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Annotation of the 330-kb Chlorella virus PBCV-1 genome identified a 237 nucleotide gene (a438l) that codes for a protein with ~35% amino acid identity to glutaredoxins (Grx) found in other organisms. The PBCV-1 protein resembles classical Grxs in both size (9 kDa) and location of the active site (N-terminus). However, the PBCV-1 Grx is unusual because it contains a monothiol active site (CPYS) rather than the typical dithiol active site (CPYC). To examine this unique active site, four sitespecific mutants (CPYC, CPYA, SPYC, and SPYS) were constructed to determine if the N-terminal cysteine is necessary for enzyme activity. Wild type and both mutants containing N-terminal cysteines catalyzed the reduction of disulfides in a coupled system with GSH, NADPH, and glutathione reductase. However, both mutants with an altered N-terminal cysteine were inactive. The grx gene is common in the Chlorella viruses. Molecular phylogenetic analyses of the PBCV-1 enzyme support its relatedness to those from other Chlorella viruses and yet demonstrate the divergence of the Grx molecule.
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Nitric oxide (NO) is an atypical neurotransmitter that has been related to the pathophysiology of major depression disorder. Increased plasma NO levels have been reported in depressed and suicidal patients. Inhibition of neuronial nitric oxide synthase (nNOS), on the other hand, induces antidepressant effects in clinical and pre-clinical trials. The mechanisms responsible for the antidepressant-like effects of nNOS inhibitors, however, are not completely understood. In this study, genomic and proteomic analyses were used to investigate the effects of the preferential nNOS inhibitor 7-nitroindazole (7-NI) on changes in global gene and protein expression in the hippocampus of rats submitted to forced swimming test (FST). Chronic treatment (14 days, i.p.) with imipramine (15 mg/kg daily) or 7-NI (60 mg/kg daily) significantly reduced immobility in the FST. Saturation curves for Serial analysis of gene expression libraries showed that the hippocampus of animals submitted to FST presented a lower number of expressed genes compared to non-FST stressed groups. Imipramine, but not 7-NI, reverted this effect. GeneGo analyses revealed that genes related to oxidative phosphorylation, apoptosis and survival controlled by HTR1A signaling and cytoskeleton remodeling controlled by Rho GTPases were significantly changed by FST. 7-NI prevented this effect. In addition, 7-NI treatment changed the expression of genes related to transcription in the cAMP response element-binding pathway. Therefore, this study suggests that changes in oxidative stress and neuroplastic processes could be involved in the antidepressant-like effects induced by nNOS inhibition.
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We investigated the role of aminoguanidine and benfotiamine on the inhibition of reactive oxygen species (ROS) generation in macrophages induced by advanced glycated albumin (AGE-albumin) and its relationship with cell cholesterol homeostasis, emphasizing the expression of the ATP binding cassette transporter A-1 (ABCA-1). AGE-albumin was made by incubating fatty acid-free albumin with 10 mM glycolaldehyde. ROS production and ABCA-1 protein level were determined by flow cytometry in J774 macrophages treated along time with control (C) or AGE-albumin alone or in the presence of aminoguanidine or benfotiamine. Mitochondrial function was evaluated by oxygraphy. Compared to C-albumin, AGE-albumin increased ROS production in macrophages, which was ascribed to the activities of NADPH oxidase and of the mitochondrial system. Mitochondrial respiratory chain activity was reduced in cells incubated with AGE-albumin. ROS generation along time was associated with the reduction in macrophage ABCA-1 protein level. Aminoguanidine prevented ROS elevation and restored the ABCA-1 content in macrophages; on the other hand, benfotiamine that promoted a lesser reduction in ROS generation was not able to restore ABCA-1 levels. Inhibition of oxidative stress induced by AGE-albumin prevents disturbances in reverse cholesterol transport by curbing the reduction of ABCA-1 elicited by advanced glycation in macrophages and therefore may contribute to the prevention of atherosclerosis in diabetes mellitus.
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AIM: To evaluate for the first time the protein and mRNA expression of 14-3-3 epsilon in gastric carcinogenesis. METHODS: 14-3-3 epsilon protein expression was determined by western blotting, and mRNA expression was examined by real-time quantitative RT-PCR in gastric tumors and their matched non-neoplastic gastric tissue samples. RESULTS: Authors observed a significant reduction of 14-3-3 epsilon protein expression in gastric cancer (GC) samples compared to their matched non-neoplastic tissue, Reduced levels of 14-3-3 epsilon were also associated with diffuse-type GC and early-onset of this pathology. Our data suggest that reduced 14-3-3 epsilon may have a role in gastric carcinogenesis process. CONCLUSION: Our results reveal that the reduced 14-3-3 epsilon expression in GC and investigation of 14-3-3 epsilon interaction partners may help to elucidate the carcinogenesis process. (C) 2012 Baishideng. All rights reserved.
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Some organ-transplanted patients achieve a state of "operational tolerance" (01) in which graft function is maintained after the complete withdrawal of immunosuppressive drugs. We used a gene panel of regulatory/inflammatory molecules (FOXP3, GATA3, 100, TGFB1, TGFBR1/TBX21, TNF and IFNG) to investigate the gene expression profile in peripheral blood mononuclear cells of renal-transplanted individuals experiencing OT compared to transplanted individuals not displaying OT and healthy individuals (HI). OT subjects showed a predominant regulatory (REG) profile with higher gene expression of GATA3, FOXP3, TGFB1 and TGFB receptor 1 compared to the other groups. This predominant REG gene expression profile displayed stability over time. The significant GATA3 gene and protein expressions in OT individuals suggest that a Th2 deviation may be a relevant pathway to OT. Moreover, the capacity of the REG/INFLAMMA gene panel to discriminate OT by peripheral blood analysis indicates that this state has systemic repercussions. (C) 2011 Elsevier Inc. All rights reserved.
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Transcription is controlled by promoter-selective transcriptional factors (TFs), which bind to cis-regulatory enhancers elements, termed hormone response elements (HREs), in a specific subset of genes. Regulation by these factors involves either the recruitment of coactivators or corepressors and direct interaction with the basal transcriptional machinery (1). Hormone-activated nuclear receptors (NRs) are well characterized transcriptional factors (2) that bind to the promoters of their target genes and recruit primary and secondary coactivator proteins which possess many enzymatic activities required for gene expression (1,3,4). In the present study, using single-cell high-resolution fluorescent microscopy and high throughput microscopy (HTM) coupled to computational imaging analysis, we investigated transcriptional regulation controlled by the estrogen receptor alpha (ERalpha), in terms of large scale chromatin remodeling and interaction with the associated coactivator SRC-3 (Steroid Receptor Coactivator-3), a member of p160 family (28) primary coactivators. ERalpha is a steroid-dependent transcriptional factor (16) that belongs to the NRs superfamily (2,3) and, in response to the hormone 17-ß estradiol (E2), regulates transcription of distinct target genes involved in development, puberty, and homeostasis (8,16). ERalpha spends most of its lifetime in the nucleus and undergoes a rapid (within minutes) intranuclear redistribution following the addition of either agonist or antagonist (17,18,19). We designed a HeLa cell line (PRL-HeLa), engineered with a chromosomeintegrated reporter gene array (PRL-array) containing multicopy hormone response-binding elements for ERalpha that are derived from the physiological enhancer/promoter region of the prolactin gene. Following GFP-ER transfection of PRL-HeLa cells, we were able to observe in situ ligand dependent (i) recruitment to the array of the receptor and associated coregulators, (ii) chromatin remodeling, and (iii) direct transcriptional readout of the reporter gene. Addition of E2 causes a visible opening (decondensation) of the PRL-array, colocalization of RNA Polymerase II, and transcriptional readout of the reporter gene, detected by mRNA FISH. On the contrary, when cells were treated with an ERalpha antagonist (Tamoxifen or ICI), a dramatic condensation of the PRL-array was observed, displacement of RNA Polymerase II, and complete decreasing in the transcriptional FISH signal. All p160 family coactivators (28) colocalize with ERalpha at the PRL-array. Steroid Receptor Coactivator-3 (SRC-3/AIB1/ACTR/pCIP/RAC3/TRAM1) is a p160 family member and a known oncogenic protein (4,34). SRC-3 is regulated by a variety of posttranslational modifications, including methylation, phosphorylation, acetylation, ubiquitination and sumoylation (4,35). These events have been shown to be important for its interaction with other coactivator proteins and NRs and for its oncogenic potential (37,39). A number of extracellular signaling molecules, like steroid hormones, growth factors and cytokines, induce SRC-3 phosphorylation (40). These actions are mediated by a wide range of kinases, including extracellular-regulated kinase 1 and 2 (ERK1-2), c-Jun N-terminal kinase, p38 MAPK, and IkB kinases (IKKs) (41,42,43). Here, we report SRC-3 to be a nucleocytoplasmic shuttling protein, whose cellular localization is regulated by phosphorylation and interaction with ERalpha. Using a combination of high throughput and fluorescence microscopy, we show that both chemical inhibition (with U0126) and siRNA downregulation of the MAP/ERK1/2 kinase (MEK1/2) pathway induce a cytoplasmic shift in SRC-3 localization, whereas stimulation by EGF signaling enhances its nuclear localization by inducing phosphorylation at T24, S857, and S860, known partecipants in the regulation of SRC-3 activity (39). Accordingly, the cytoplasmic localization of a non-phosphorylatable SRC-3 mutant further supports these results. In the presence of ERalpha, U0126 also dramatically reduces: hormone-dependent colocalization of ERalpha and SRC-3 in the nucleus; formation of ER-SRC-3 coimmunoprecipitation complex in cell lysates; localization of SRC-3 at the ER-targeted prolactin promoter array (PRL-array) and transcriptional activity. Finally, we show that SRC-3 can also function as a cotransporter, facilitating the nuclear-cytoplasmic shuttling of estrogen receptor. While a wealth of studies have revealed the molecular functions of NRs and coregulators, there is a paucity of data on how these functions are spatiotemporally organized in the cellular context. Technically and conceptually, our findings have a new impact upon evaluating gene transcriptional control and mechanisms of action of gene regulators.
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Myc is a transcription factor that can activate transcription of several hundreds genes by direct binding to their promoters at specific DNA sequences (E-box). However, recent studies have also shown that it can exert its biological role by repressing transcription. Such studies collectively support a model in which c-Myc-mediated repression occurs through interactions with transcription factors bound to promoter DNA regions but not through direct recognition of typical E-box sequences. Here, we investigated whether N-Myc can also repress gene transcription, and how this is mechanistically achieved. We used human neuroblastoma cells as a model system in that N-MYC amplification/over-expression represents a key prognostic marker of this tumour. By means of transcription profile analyses we could identify at least 5 genes (TRKA, p75NTR, ABCC3, TG2, p21) that are specifically repressed by N-Myc. Through a dual-step-ChIP assay and genetic dissection of gene promoters, we found that N-Myc is physically associated with gene promoters in vivo, in proximity of the transcription start site. N-Myc association with promoters requires interaction with other proteins, such as Sp1 and Miz1 transcription factors. Furthermore, we found that N-Myc may repress gene expression by interfering directly with Sp1 and/or with Miz1 activity (i.e. TRKA, p75NTR, ABCC3, p21) or by recruiting Histone Deacetylase 1 (Hdac1) (i.e. TG2). In vitro analyses show that distinct N-Myc domains can interact with Sp1, Miz1 and Hdac1, supporting the idea that Myc may participate in distinct repression complexes by interacting specifically with diverse proteins. Finally, results show that N-Myc, through repressed genes, affects important cellular functions, such as apoptosis, growth, differentiation and motility. Overall, our results support a model in which N-Myc, like c-Myc, can repress gene transcription by direct interaction with Sp1 and/or Miz1, and provide further lines of evidence on the importance of transcriptional repression by Myc factors in tumour biology.
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Der Wilms-Tumor ist eine embryonale Tumorerkrankung der Niere, als deren Ursprung Nierenvorläuferzellen des metanephrischen Mesenchyms gelten, deren Differenzierung während der frühen Nephrogenese ausbleibt und aus denen nachfolgend durch eine maligne Transformation Wilms-Tumore entstehen. Zwei Gene, die an der Wilms-Tumorgenese beteiligt zu sein scheinen, sind WT1 (Wilms-Tumorgen 1) und CTNNB1 (Catenin, cadherin-associated protein, beta 1). Während WT1 u.a. die Differenzierung des metanephrischen Mesenchyms steuert, begünstigen aktivierende Mutationen von CTNNB1 und eine dadurch bedingte Akkumulation seines Proteins β-Catenin die Tumorgenese vieler Organe. So verwundert es nicht, dass eine alleinige heterozygote Keimbahnmutation von WT1, die einen dominant-negativen Effekt auf funktionsfähiges WT1 ausübt, häufig zur Entstehung von Wilms-Tumoren in Patienten mit Denys-Drash-Syndrom (DDS) führt, sowie in etwa 15 % aller sporadischen Wilms-Tumore WT1 und CTNNB1 mutiert sind.rnDer Mechanismus der Entstehung von Wilms-Tumoren ist weitgehend unbekannt, was u.a. daran liegt, dass homozygote Wt1-Mutationen in der Maus embryonal (~ Tag 13,5 d.p.c.) letal sind. In der vorliegenden Arbeit sollten daher mit Hilfe einer Wt1 k.o.-Effektormaus (WE2) vier murine konditional reversible Wilms-Tumor-Modelle auf Basis des Tet off-Systems hergestellt werden. Dadurch lag in den zu generierenden Tieren Wt1 durch die Integration des WE2-Transgens zwar nur heterozygot mutiert vor, doch durch den endogenen Wt1-Promotor des Transgens sollte es zur zeitlichen und räumlichen Wt1-analogen Expression eines tetrazyklinabhängigen Transaktivators (tTA) kommen, der ohne die Gabe von Doxycyclin Tet-regulierbare Transgene in Wt1-exprimierenden Zellen aktivieren kann, die einen positiven Einfluss auf die Wilms-Tumorgenese haben könnten. So sollte durch das WE2 DDS-Modell ein DDS simuliert werden und es in Tieren der Modelle WE2 TC bCat∆Ex3, WE2 LC bCat∆Ex3 und WE2 Wnt1 zur Akkumulation von β-Catenin in Wt1-exprimierenden Nierenvorläuferzellen kommen, so dass deren Differenzierung ausbleibt und es durch eine maligne Transformation zur Entstehung eines Wilms-Tumors kommt.rnrnMit Hilfe von histologischen Analysen an entsprechenden Responder-Linien konnte zunächst gezeigt werden, dass die embryonale und adulte Expressionsdomäne des WE2-Effektors mit der von endogenen Wt1 übereinstimmt. Gleichzeitig wurden aber auch neue Expressionsorte von Wt1 nachgewiesen. So konnte die Expression des WE2-Effektors z.B. im Endothel der dorsalen Aorta detektiert werden, der als Entstehungsort von hämatopoetischen Stammzellen gilt. Anschließende hier vorgestellte Experimente zeigten, dass Wt1 direkt an diesem Prozess beteiligt ist und belegten eine noch nicht beschriebene Funktion von Wt1 in der frühen Hämatopoese.rnEs war jedoch mit keinem System möglich, eine Wilms-Tumorerkrankung zu simulieren. Während Tiere des WE2 DDS-Modells trotz nachweisbarer Induktion keinen Phänotyp aufwiesen, war wohl in den anderen Modellen eine konstitutive β-Catenin-Aktivierung in der Frühschwangerschaft nicht mit dem embryonalen Überleben vereinbar. Dabei schienen alle tripeltransgenen bzw. doppeltransgenen Embryonen, in denen durch einen frühen Doxycyclinentzug die Entstehung von Wilms-Tumoren möglich gewesen wäre, intrauterin zu sterben. Wurde dagegen Doxycyclin erst in der dritten Lebenswoche entzogen, so entwickelten die Tiere durch eine Wt1-vermittelte β-Catenin-Aktivierung Granulosazelltumore, polyzystische Nieren und Veränderungen der Hoden. Da alle diese organischen Veränderungen während der prä- bis frühen postnatalen Phase induziert wurden, schien die Doxycyclinmenge nicht auszureichen, um eine β-Catenin-Aktivierung zu verhindern. Es hätte also auch zur Entstehung von Wilms-Tumoren kommen können, so dass diese Ergebnisse darauf hinweisen, dass eine β-Catenin-Aktivierung wahrscheinlich nicht der physiologisch entscheidende Schritt bei der Entstehung eines Wilms-Tumors ist.rnrnDie Charakterisierung der WE2-Effektormaus und die Herstellung und Analysen der Systeme geben damit Einblick in die WT1- bzw. WT1/CTNNB1-assoziierte Wilms-Tumorgenese und ermöglichen die weitere Erforschung von Granulosazelltumoren, polyzystsischen Nieren, Veränderungen von Hoden und der Rolle von WT1 in der frühen Hämatopoese.rn
