Search results for "Peroxisome Proliferation"

showing 6 items of 26 documents

Genetic-dependency of peroxisomal cell functions - emerging aspects

2003

This paper reviews aspects concerning the genetic regulation of the expression of the well studied peroxisomal genes including those of fatty acid beta-oxidation enzymes; acyl-CoA oxidase, multifunctional enzyme and thiolase from different tissues and species. An important statement is PPARalpha, which is now long known to be in rodents the key nuclear receptor orchestrating liver peroxisome proliferation and enhanced peroxisomal beta-oxidation, does not appear to control so strongly in man the expression of genes involved in peroxisomal fatty acid beta-oxidation related enzymes. In this respect, the present review strengthens among others the emerging concept that, in the humans, the main …

chemistry.chemical_classificationThiolaseFatty AcidsAdaptation BiologicalReceptors Cytoplasmic and NuclearPeroxisome ProliferationPeroxisome proliferator-activated receptorReviewCell BiologyPeroxisomeBiologyLipid MetabolismchemistryNuclear receptorBiochemistryPeroxisomesAnimalsHumansMolecular MedicineGeneFunction (biology)BiogenesisSignal TransductionTranscription FactorsJournal of Cellular and Molecular Medicine
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Modulation of peroxisomes abundance by argan oil and lipopolysaccharides in acyl-CoA oxidase 1-deficient fibroblasts

2013

Pseudo-neonatal adrenoleukodystrophy (P-NALD) is a neurodegenerative disorder caused by acyl-CoA oxidase 1 (ACOX1) deficiency with subsequent impairment of peroxisomal fatty acid β-oxidation, accumulation of very long chain fatty acids (VLCFAs) and strong reduction in peroxisome abundance. Increase in peroxisome number has been previously suggested to improve peroxisomal disorders, and in this perspective, the present work was aimed at exploring whether modulation of peroxisomes abundance could be achieved in P-NALD fibroblasts. Here we showed that treatment with the natural Argan oil induced peroxisome proliferation in P-NALD fibroblasts. This induction was independent on activations of bo…

food.ingredientChemistryArgan oilPeroxisome ProliferationPeroxisomemedicine.diseaseCell biologyfoodPeroxisomal disordermedicineAcyl-CoA oxidaseACOX1AdrenoleukodystrophyPeroxisome proliferator-activated receptor alphaHealth
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Carcinogenic aspect of xenobiotic molecules belonging to the peroxisome proliferator family.

1999

It is known that a short-term exposure of rat, mice or incubation of hepatic cells with fibrate molecules leads to increase in peroxisome number and cell hyperplasia. Further, long-term incubation of cells (at least a year) show transformed characteristics with foci and nodules. To explain the hepatocarcinogenic effect of peroxisome proliferators in rodents we studied the effect of peroxisome proliferators on rat liver oncogenes expression. Earlier, we reported an increase in liver and kidney mRNA level of c-myc and N-myc. Since several metabolic genes are activated by PPAR (peroxisome proliferators activated receptor) through a PPRE (peroxisome proliferator response element), we suggest th…

medicine.drug_classCarcinogenicity TestsResponse elementGuinea PigsPeroxisome proliferator-activated receptorPeroxisome ProliferationRodentiaFibrateBiologyXenobioticsGeneticsmedicineTumor Cells CulturedAnimalsHumansReceptorchemistry.chemical_classificationGeneral MedicineOncogenesPeroxisomeMolecular biologyCell biologyRatsCell Transformation NeoplasticchemistryHepatic stellate cellCarcinogensPeroxisome ProliferatorsCiprofibrateCell Divisionmedicine.drugHepatomegalyInternational journal of molecular medicine
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Preparation of a dansylated fibrate, a new fluorescent tool to study peroxisome proliferation. Effect on hepatic-derived cell lines.

1997

The synthesis of a dansylated fibrate (DNS-X) has been performed in order to identify the cellular affinity sites of peroxisome proliferators and to establish the subcellular localization of such molecules. DNS-X has been obtained by coupling the dansy1 chloride with the amine resulting from the bezafibrate alkaline hydrolysis. The purified DNS-X has been further characterized by spectrum analysis (UV-Vis, fluorescence, [1H]/[13C]-NMR and mass). At 250 microM and incubated for 48 h with the rat hepatic derived cells (Fao cells), DNS-X stimulates 12-fold the palmitoyl-CoA oxidase, a peroxisome proliferation marker enzyme. This increase is comparable to the one obtained with well known peroxi…

medicine.drug_classPeroxisome ProliferationFibrateBiochemistryMicrobodiesCell Linechemistry.chemical_compoundmedicineTumor Cells CulturedAnimalsHumanschemistry.chemical_classificationDansyl CompoundsOxidase testBezafibratefungiDansyl chlorideGeneral MedicineSubcellular localizationRatsEnzymeBiochemistrychemistryLiverCiprofibrateBezafibratemedicine.drugBiochimie
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Medical significance of peroxisome proliferator-activated receptors.

1999

Peroxisome proliferator-activated receptors (PPAR) were discovered in 1990, ending 25 years of uncertainty about the molecular mechanisms of peroxisome proliferation. Subsequently, PPARs have improved our understanding of adipocyte differentiation. But there is more to PPARs than solving a puzzle about an organelle (the peroxisome) long considered an oddity, and their medical significance goes beyond obesity too. Enhanced PPAR type alpha expression protects against cardiovascular disorders though the role of enhanced PPARgamma expression seems less favourable. PPAR mechanisms, mainly via induction of more differentiated cell phenotypes, protect against some cancers. The differentiation of m…

medicine.medical_specialtyCellular differentiationPeroxisome ProliferationPeroxisome proliferator-activated receptorReceptors Cytoplasmic and NuclearBiologyMicrobodiesInternal medicineNeoplasmsmedicineAdipocytesAnimalsHumansReceptorRegulation of gene expressionchemistry.chemical_classificationResearchFatty AcidsCell DifferentiationGeneral MedicinePeroxisomeEndocrinologychemistryNuclear receptorGene Expression RegulationCardiovascular DiseasesCancer researchPeroxisome proliferator-activated receptor alphaOxidation-ReductionTranscription FactorsLancet (London, England)
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Progressive Endoplasmic Reticulum Stress Contributes to Hepatocarcinogenesis in Fatty Acyl-CoA Oxidase 1–Deficient Mice

2011

Fatty acyl-coenzyme A oxidase 1 (ACOX1) knockout (ACOX1(-/-)) mice manifest hepatic metabolic derangements that lead to the development of steatohepatitis, hepatocellular regeneration, spontaneous peroxisome proliferation, and hepatocellular carcinomas. Deficiency of ACOX1 results in unmetabolized substrates of this enzyme that function as biological ligands for peroxisome proliferator-activated receptor-α (PPARα) in liver. Here we demonstrate that sustained activation of PPARα in ACOX1(-/-) mouse liver by these ACOX1 substrates results in endoplasmic reticulum (ER) stress. Overexpression of transcriptional regulator p8 and its ER stress-related effectors such as the pseudokinase tribbles h…

medicine.medical_specialtyGenotypePeroxisome proliferator-activated receptorPeroxisome ProliferationMice TransgenicBiologyEndoplasmic ReticulumModels BiologicalPathology and Forensic MedicineMiceInternal medicinemedicineAnimalsHumansAcyl-CoA oxidasePPAR alphaTransgenesDNA Primerschemistry.chemical_classificationLiver cellEndoplasmic reticulumLiver NeoplasmsRegular ArticlePeroxisomemedicine.diseaseNeoplasm ProteinsCell biologyDNA-Binding ProteinsMice Inbred C57BLEndocrinologyGene Expression RegulationLiverchemistryHepatocytesUnfolded protein responseAcyl-CoA OxidaseSteatohepatitisThe American Journal of Pathology
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