Search results for "Retinoic Acid Receptor alpha"

showing 10 items of 12 documents

Induction of Transglutaminase 2 by a Liver X Receptor/Retinoic Acid Receptor α Pathway Increases the Clearance of Apoptotic Cells by Human Macrophages

2009

Rationale: Liver X receptors (LXRs) are oxysterol-activated nuclear receptors that are involved in the control of cholesterol homeostasis and inflammatory response. Human monocytes and macrophages express high levels of these receptors and are appropriate cells to study the response to LXR agonists. Objective: The purpose of this study was to identify new LXR targets in human primary monocytes and macrophages and the consequences of their activation. Methods and Results: We show that LXR agonists significantly increase the mRNA and protein levels of the retinoic acid receptor (RAR)α in primary monocytes and macrophages. LXR agonists promote RARα gene transcription through binding to a spec…

Agonistmedicine.medical_specialtyReceptors Retinoic AcidPhysiologymedicine.drug_classResponse elementReceptors Cytoplasmic and NuclearApoptosisBiologyCell LinePhagocytosisGTP-Binding ProteinsInternal medicinemedicineHumansMacrophageProtein Glutamine gamma Glutamyltransferase 2ReceptorLiver X receptorLiver X ReceptorsTransglutaminasesMacrophagesRetinoic Acid Receptor alphaMacrophage ActivationAtherosclerosisOrphan Nuclear ReceptorsCell biologyDNA-Binding ProteinsRetinoic acid receptorEndocrinologyNuclear receptorRetinoic acid receptor alphaEnzyme InductionCardiology and Cardiovascular MedicineCirculation Research
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Retinoid X receptor and retinoic acid response in the marine sponge Suberites domuncula

2003

SUMMARY To date no nuclear receptors have been identified or cloned from the phylogenetically oldest metazoan phylum, the Porifera (sponges). We show that retinoic acid causes tissue regression in intact individuals of the demosponge Suberites domuncula and in primmorphs, special three-dimensional cell aggregates. Primmorphs were cultivated on a galectin/poly-L-lysine matrix in order to induce canal formation. In the presence of 1 or 50 μmol l–1 retinoic acid these canals undergo regression, a process that is reversible. We also cloned the cDNA from S. domunculaencoding the retinoid X receptor (RXR), which displays the two motifs of nuclear hormone receptors, the ligand-binding and the DNA-…

DNA ComplementaryRetinoid X receptor; Suberites domuncula; marine spongesCroatiaReceptors Retinoic AcidPhysiologyMolecular Sequence DataRetinoic acidGene ExpressionApoptosisEnzyme-Linked Immunosorbent AssayTretinoinRetinoic acid receptor betaAquatic ScienceRetinoic acid-inducible orphan G protein-coupled receptorchemistry.chemical_compoundAnimalsCluster AnalysisAmino Acid SequenceMolecular BiologyPhylogenyEcology Evolution Behavior and SystematicsbiologySequence Analysis DNARetinoic acid receptor gammaBlotting Northernbiology.organism_classificationRetinoid X receptor gammaPoriferaCell biologySuberites domunculaRetinoic acid receptorRetinoid X ReceptorschemistryBiochemistryRetinoic acid receptor alphaInsect ScienceAnimal Science and ZoologySequence AlignmentTranscription FactorsJournal of Experimental Biology
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Function of RAR? and RAR?2 at the initiation of retinoid signaling is essential for avian embryo survival and for distinct events in cardiac morphoge…

2003

Avian embryogenesis requires retinoid receptor activation by the vitamin A active form, retinoic acid (RA), during neurulation. We conducted loss-of-function analysis in quail embryos by nutritional deprivation of RA and by blocking generation of retinoid receptors. Here we identify a distinct role for RARα2 in cardiac inflow tract morphogenesis and for RARγ in cardiac left/right orientation and looping morphogenesis. Blocking normal embryos with antisense oligonucleotides to RARα2 or RXRα diminishes GATA-4 transcripts, while blocking RARγ or RXRα diminishes nodal and Pitx2 transcripts; the expression of these genes in the heart forming region resembles that of the vitamin A-deficient embry…

Embryo NonmammalianTime Factorsanimal structuresCell SurvivalReceptors Retinoic Acidmedicine.drug_classMorphogenesisRetinoic acidRetinoid receptorCoturnixBiologyRetinoidschemistry.chemical_compoundmedicineAnimalsRNA MessengerRetinoidIn Situ HybridizationHomeodomain ProteinsGeneticsRetinoid X receptor alphaPITX2MyocardiumRetinoic Acid Receptor alphaGene Expression Regulation DevelopmentalOligonucleotides AntisenseGATA4 Transcription FactorCell biologyDNA-Binding ProteinsPhenotypeRetinoid X ReceptorschemistrySignal transductionNODALSignal TransductionTranscription FactorsDevelopmental BiologyDevelopmental Dynamics
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Interleukin-12 and -23 Control Plasticity of CD127(+) Group 1 and Group 3 Innate Lymphoid Cells in the Intestinal Lamina Propria.

2015

Human group 1 ILCs consist of at least three phenotypically distinct subsets, including NK cells, CD127(+) ILC1, and intraepithelial CD103(+) ILC1. In inflamed intestinal tissues from Crohn's disease patients, numbers of CD127(+) ILC1 increased at the cost of ILC3. Here we found that differentiation of ILC3 to CD127(+) ILC1 is reversible in vitro and in vivo. CD127(+) ILC1 differentiated to ILC3 in the presence of interleukin-2 (IL-2), IL-23, and IL-1β dependent on the transcription factor RORγt, and this process was enhanced in the presence of retinoic acid. Furthermore, we observed in resection specimen from Crohn's disease patients a higher proportion of CD14(+) dendritic cells (DC), whi…

Interleukin 2Receptors Retinoic AcidCellular differentiationCD14ImmunologyInterleukin-1betaRetinoic acidLipopolysaccharide Receptorschemical and pharmacologic phenomenaTretinoinMice SCIDBiologyInterleukin-12 Subunit p35Interleukin-7 Receptor alpha Subunitchemistry.chemical_compoundMiceIntestinal mucosaCrohn DiseaseMice Inbred NODmedicineImmunology and AllergyAnimalsHumansRetinoid X Receptor gammaLymphocytesIntestinal MucosaInterleukin-7 receptorCells CulturedMice KnockoutRetinoic Acid Receptor alphaInnate lymphoid cellvirus diseaseshemic and immune systemsCell DifferentiationDendritic CellsNuclear Receptor Subfamily 1 Group F Member 3Molecular biologyKiller Cells NaturalMice Inbred C57BLInfectious DiseaseschemistryLymphocyte TransfusionImmunologyInterleukin 12Interleukin-23 Subunit p19Interleukin-2medicine.drugImmunity
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Analysis of t(15;17) chromosomal breakpoint sequences in therapy-related versus de novo acute promyelocytic leukemia: Association of DNA breaks with …

2010

We compared genomic breakpoints at the PML and RARA loci in 23 patients with therapy-related acute promyelocytic leukemia (t-APL) and 25 de novo APL cases.Eighteen of 23 t-APL cases received the topoisomerase II poison mitoxantrone for their primary disorder. DNA breaks were clustered in a previously reported 8 bp "hot spot" region of PML corresponding to a preferred site of mitoxantrone-induced DNA topoisomerase II-mediated cleavage in 39% of t-APL occurring in patients exposed to this agent and in none of the cases arising de novo (P = 0.007). As to RARA breakpoints, clustering in a 3' region of intron 2 (region B) was found in 65% of t-APL and 28% of de novo APL patients, respectively. S…

MaleCancer ResearchReceptors Retinoic AcidRetinoic AcidMessengerPromyelocytic Leukemia ProteinTranslocation GeneticChromosome BreakpointsLeukemia Promyelocytic Acuteimmune system diseasesReceptorsPromyelocyticGeneticsLeukemiabiologyReverse Transcriptase Polymerase Chain ReactionRetinoic Acid Receptor alphaNuclear ProteinsDNA NeoplasmMiddle AgedFemaleHumanAdultAcute promyelocytic leukemiaChromosome BreakpointsTranslocationAntineoplastic AgentsAcuteChromosomesYoung AdultPromyelocytic leukemia proteinGeneticGeneticsmedicineConsensus sequenceHumansRNA MessengerReceptors Retinoic Acid; Male; Young Adult; Middle Aged; Chromosome Breakpoints; Female; Chromosomes Human Pair 17; Tumor Suppressor Proteins; Humans; DNA Neoplasm; Translocation Genetic; Leukemia Promyelocytic Acute; Antineoplastic Agents; Nuclear Proteins; RNA Messenger; Mitoxantrone; Reverse Transcriptase Polymerase Chain Reaction; Chromosomes Human Pair 15; Transcription Factors; Aged; AdultneoplasmsAgedChromosomes Human Pair 15Pair 17Tumor Suppressor ProteinsTopoisomeraseBreakpointPair 15DNAmedicine.diseaseRetinoic acid receptor alphabiology.proteinNeoplasmRNAHuman genomeMitoxantroneSettore MED/15 - Malattie del SangueChromosomes Human Pair 17Transcription FactorsGenes, Chromosomes and Cancer
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Retinoic acid inhibits nitric oxide synthase-2 expression through the retinoic acid receptor-alpha.

2000

Retinoids are multipotent modulators of cellular functions and suppress cytokine-induced production of nitric oxide (NO) in several cell types. We have explored the mechanisms by which retinoic acid (RA) regulates NO production in rat aortic smooth muscle cells (VSMC), which express NOS2 in response to proinflammatory cytokines. RA inhibited interleukin-1beta (IL-1beta)-induced NOS2 mRNA expression and NO production. These effects were attenuated by the retinoic acid receptor (RAR) antagonist CD3106, indicating that they were mediated through retinoic acid receptors (RARs). The synthetic retinoid agonists CD336 (which specifically binds RARalpha) and CD367 (which binds all RARs) but not ago…

MaleTranscription GeneticReceptors Retinoic AcidBiophysicsRetinoic acidNitric Oxide Synthase Type IIRetinoic acid receptor betaAorta ThoracicTretinoinBiochemistryGene Expression Regulation EnzymologicMuscle Smooth VascularProinflammatory cytokineRetinoic acid-inducible orphan G protein-coupled receptorRats Sprague-Dawleychemistry.chemical_compoundparasitic diseasesAnimalsPromoter Regions GeneticMolecular BiologyCells CulturedbiologyRetinoic Acid Receptor alphaNitric oxide synthase 2Cell BiologyRetinoic acid receptor gammarespiratory systemCell biologyRatsRetinoic acid receptorKineticsBiochemistrychemistryRetinoic acid receptor alphabiology.proteinNitric Oxide SynthaseInterleukin-1Biochemical and biophysical research communications
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Up‐regulation of the α‐secretase ADAM10 by retinoic acid receptors and acitretin

2009

Late-onset Alzheimer's disease is often connected with nutritional misbalance, such as enhanced cholesterol intake, deficiency in polyunsaturated fatty acids, or hypovitaminosis. The alpha-secretase ADAM10 has been found to be regulated by retinoic acid, the bioreactive metabolite of vitamin A. Here we show that retinoids induce gene expression of ADAM10 and alpha-secretase activity by nonpermissive retinoid acid receptor/retinoid X receptor (RAR/RXR) heterodimers, whereby alpha- and beta-isotypes of RAR play a major role. However, ligands of other RXR binding partners, such as the vitamin D receptor, do not stimulate alpha-secretase activity. On the basis of these findings, we examined the…

Malemedicine.medical_specialtyReceptors Retinoic AcidReceptors Cytoplasmic and NuclearMice TransgenicTretinoinRetinoic acid receptor betaRetinoid X receptorBiologyBiochemistryCell LineAcitretinADAM10 ProteinAmyloid beta-Protein PrecursorMiceKeratolytic AgentsAlzheimer DiseaseInternal medicineGeneticsmedicineAnimalsHumansPromoter Regions GeneticMolecular BiologyLiver X ReceptorsReceptors Thyroid HormoneMolecular StructureRetinoid X receptor alphaMembrane ProteinsOrphan Nuclear ReceptorsRetinoid X receptor gammaAcitretinUp-RegulationDNA-Binding ProteinsPPAR gammaADAM ProteinsRetinoic acid receptorRetinoid X ReceptorsEndocrinologyGene Expression RegulationRetinoic acid receptor alphaReceptors CalcitriolAmyloid Precursor Protein SecretasesRetinoid X receptor betaBiotechnologymedicine.drugThe FASEB Journal
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The analysis of modified peroxisome proliferator responsive elements of the peroxisomal bifunctional enzyme in transfected HepG2 cells reveals two re…

1995

AbstractPeroxisome proliferators (PPs) are non-genotoxic carcinogens in rodents. They can induce the expression of numerous genes via the heterodimerization of two members of the steroid hormone receptor superfamily, called the peroxisome proliferator-activated receptor (PPAR) and the 9-cis retinoic acid receptor (RXR). Many of the PP responsive genes possess a peroxisome proliferator response element (PPRE) formed by two TGACCT-related motifs. The bifunctional enzyme (HD) PPRE contains 3 such motifs, creating DR1 and DR2 sequences. PPAR and RXR regulate transcription via the DR1 element while DR2 modulates the expression of the gene via auxiliary factors in HepG2 cells.

Peroxisome proliferator-activated receptor gammaReceptors Retinoic AcidSteroid hormone receptorMolecular Sequence DataResponse elementBiophysicsReceptors Cytoplasmic and NuclearPeroxisome proliferator-activated receptorchemical and pharmacologic phenomenaIn Vitro TechniquesRegulatory Sequences Nucleic AcidRetinoid X receptorBiologyPeroxisomal Bifunctional EnzymeTransfectionMicrobodiesBiochemistryGene Expression Regulation EnzymologicTranscriptional activationPeroxisomal Bifunctional EnzymeMultienzyme ComplexesStructural BiologyPeroxisome proliferator response element9-cis Retinoic acid receptor alphaTumor Cells CulturedGeneticsHumansRNA MessengerIsomerasesEnoyl-CoA HydrataseMolecular Biologychemistry.chemical_classificationBinding SitesBase Sequence3-Hydroxyacyl CoA DehydrogenasesPeroxisome proliferator-activated receptorCell BiologyDNA-Binding ProteinsRetinoic acid receptorRetinoid X ReceptorsLiverOligodeoxyribonucleotidesBiochemistrychemistryRat peroxisomal enoyl-CoA hydratase/3-hydroxyacyl-CoA dehydrogenaseEnzyme InductionPeroxisome proliferator-activated receptor alphaTranscription FactorsFEBS Letters
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Xanthine dehydrogenase processes retinol to retinoic acid in human mammary epithelial cells

2008

Retinoic acid is considered to be the active metabolite of retinol, able to control differentiation and proliferation of epithelia. Retinoic acid biosynthesis has been widely described with the implication of multiple enzymatic activities. However, our understanding of the cell biological function and regulation of this process is limited. In a recent study we evidenced that milk xanthine oxidase (E.C. 1.17.3.2.) is capable to oxidize all-trans-retinol bound to CRBP (holo-CRBP) to all-trans-retinaldehyde and then to all-trans-retinoic acid. To get further knowledge regarding this process we have evaluated the biosynthetic pathway of retinoic acid in a human mammary epithelial cell line (HME…

Receptors Retinoic AcidXanthine dehydrogenaseCellRetinoic acidOxypurinolTretinoinRetinoic acid receptor betaBiologychemistry.chemical_compoundSettore BIO/10 - BiochimicaDrug DiscoverymedicineHumansMammary Glands HumanVitamin AXanthine oxidaseHMECPharmacologyRetinolEpithelial CellsRetinol-Binding Proteins CellularGeneral MedicineMilk ProteinsNADRetinoic acid receptormedicine.anatomical_structurechemistryBiochemistryXanthine dehydrogenaseRetinol oxidationRetinoic acid receptor alphaRetinoid AcidMetabolic Networks and PathwaysJournal of Enzyme Inhibition and Medicinal Chemistry
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Synthetic retinoids dissociate coactivator binding from corepressor release.

2002

The ligand-activated retinoid receptors RXR and RAR control development, homeostasis and disease by regulating transcription of retinoic acid (RA) responsive target genes or crosstalk with other signalling pathways. According to the current model ligand-binding triggers an exchange between corepressor- and coactivator-complexes that inhibit or potentiate transcription by deacetylating and acetylating nucleosomal histones, respectively. Additional cofactors may modify the transcriptional regulatory process by linking liganded retinoid receptors to structural components of chromatin or protein degradation. The desire to specifically influence defined events in RA-signalling, while others are …

Transcriptional Activationmedicine.drug_classReceptors Retinoic AcidAmino Acid MotifsProtein degradationRetinoid X receptorBiologyLigandsBiochemistryRetinoidsCoactivatorChlorocebus aethiopsmedicineAnimalsHumansNuclear Receptor Co-Repressor 1Protein IsoformsNuclear Receptor Co-Repressor 2RetinoidMolecular BiologyNuclear receptor co-repressor 2PELP-1Binding SitesRetinoid X receptor alphaRetinoic Acid Receptor alphaNuclear ProteinsCell BiologyCell biologyDNA-Binding ProteinsRepressor ProteinsBiochemistryGene Expression RegulationCOS CellsMutagenesis Site-DirectedCorepressorHeLa CellsJournal of receptor and signal transduction research
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