Search results for "PEROXISOME"

showing 10 items of 232 documents

The Potential of the Yeast Debaryomyces hansenii H525 to Degrade Biogenic Amines in Food

2015

Twenty-six yeasts from different genera were investigated for their ability to metabolize biogenic amines. About half of the yeast strains produced one or more different biogenic amines, but some strains of Debaryomyces hansenii and Yarrowia lipolytica were also able to degrade such compounds. The most effective strain D. hanseniii H525 metabolized a broad spectrum of biogenic amines by growing and resting cells. Degradation of biogenic amines by this yeast isolate could be attributed to a peroxisomal amine oxidase activity. Strain H525 may be useful as a starter culture to reduce biogenic amines in fermented food.

Microbiology (medical)Yarrowia lipolytica copper amine oxidasebiologyStrain (chemistry)Effective strainbiogenic aminesYarrowiaPeroxisomebiology.organism_classificationMicrobiologyArticleYeastcheeselcsh:Biology (General)Biochemistryyeasts Debaryomyces hanseniiVirologyDebaryomyces hanseniiyeasts <i>Debaryomyces hanseniigrape mustYarrowia lipolytica</i> copper amine oxidaselcsh:QH301-705.5Fermentation in food processingAmine oxidase activityMicroorganisms
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Astrocytes Protect Neurons from Aβ1-42 Peptide-Induced Neurotoxicity Increasing TFAM and PGC-1 and Decreasing PPAR-γ and SIRT-1

2015

One of the earliest neuropathological events in Alzheimer's disease is accumulation of astrocytes at sites of Aβ1-42 depositions. Our results indicate that Aβ1-42 toxic peptide increases lipid peroxidation, apoptosis and cell death in neurons but not in astrocytes in primary culture. Aβ1-42-induced deleterious neuronal effects are not present when neurons and astrocytes are mixed cultured. Stimulation of astrocytes with toxic Aβ1-42 peptide increased p-65 and decreased IκB resulting in inflammatory process. In astrocytes Aβ1-42 decreases protein expressions of sirtuin 1 (SIRT-1) and peroxisome proliferator-activated receptor γ (PPAR-γ) and over-expresses peroxisome proliferator-activated re…

MnSODProgrammed cell deathPPAR-γPeroxisome proliferator-activated receptorMitochondrionBiologyBioinformaticsmedicine.disease_causeAlzheimer's DiseaseNeurologiaPGC-1Sirtuin 1medicineAnimalsTFAMCells Culturedchemistry.chemical_classificationNeuronsAmyloid beta-PeptidesCell DeathSirtuin 1Caspase 3Superoxide DismutaseNeurotoxicityTranscription Factor RelAGeneral MedicineTFAMmedicine.diseasePeroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alphaCoculture TechniquesPeptide FragmentsCell biologyMitochondriaPeroxidesRatsPPAR gammachemistryMitochondrial biogenesisNF-κB.Astrocytesbiology.proteinFisiologia humanaLipid PeroxidationOxidative stressResearch PaperTranscription FactorsInternational Journal of Medical Sciences
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Molecular cloning, gene structure and expression profile of two mouse peroxisomal 3-ketoacyl-CoA thiolase genes

2004

Abstract Background In rats, two peroxisomal 3-ketoacyl-CoA thiolase genes (A and B) have been cloned, whereas only one thiolase gene is found in humans. The aim of this study was thus to clone the different mouse thiolase genes in order to study both their tissue expression and their associated enzymatic activity. Results In this study, we cloned and characterized two mouse peroxisomal 3-ketoacyl-CoA thiolase genes (termed thiolase A and B). Both thiolase A and B genes contain 12 exons and 11 introns. Using RNA extracted from mouse liver, we cloned the two corresponding cDNAs. Thiolase A and B cDNAs possess an open reading frame of 1272 nucleotides encoding a protein of 424 amino acids. In…

Molecular Sequence Datalcsh:Animal biochemistryGene Expressionexpérimentation animalesourislcsh:BiochemistryMiceFenofibratePeroxisomesAnimals[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyTissue Distributionlcsh:QD415-436Amino Acid SequenceRNA MessengerCloning Molecularlcsh:QP501-801adn complémentaireBase Sequencegèneactivité enzymatiquemammifèreBIOLOGIE MOLECULAIREAcetyl-CoA C-AcyltransferasefoieGene Componentsprotéinegénie génétiqueclonageResearch Articleexpression des gènesBMC Biochemistry
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Tissue-specific Expression of Two Peroxisomal 3-ketoacyl-CoA Thiolase Genes in Wild and PPARα-null Mice and Induction by Fenofibrate

2003

Our laboratory cloned two peroxisomal 3-ketoacyl-CoA thiolase genes in mouse. These genes were named mThA (mouse peroxisomal Thiolase A) and mThB (mouse peroxisomal Thiolase B) by comparison with peroxisomal thiolase genes known in rat (Hijikata et al. 1990, Bodnar & Rachubinski, 1990). In this study, we analysed the tissue expression of the two thiolase genes on wild and on PPARa-null mice.

Null miceFenofibrateTissue expressionThiolasemedicineWhite adipose tissueBiologyPeroxisomeMolecular biologyGene3-ketoacyl-CoA thiolasemedicine.drug
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Evolutionary aspects of peroxisomes as cell organelles, and of genes encoding peroxisomal proteins

2001

Peroxisomes are present in most eukaryotic cell types, and have different enzymatic content and metabolic functions throughout the life scale. The endosymbiotic origin of these DNA-devoid organelles is supported by evolutionary data concerning genes encoding not only most peroxisomal proteins, but also several transcriptional factors regulating their expression such as peroxisome proliferator-activated receptors.

OrganellesNuclear ProteinsReceptors Cytoplasmic and NuclearCell BiologyGeneral MedicinePlantsMitochondrionPeroxisomeBiologyMicrobodiesCell biologyEvolution MolecularGene Expression RegulationBiochemistryPhylogeneticsOrganellePeroxisomesAnimalsHumansMicrobodyReceptorTranscription factorGeneTranscription FactorsBiology of the Cell
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modifications peroxysomales associées à l'oxyapoptophagie induite par le 7-cétocholestérol et identification de lipides cytoprotecteurs

2020

Oxidative stress is often increased in several diseases such as age-related diseases (cardiovascular diseases, eye diseases (age-related macular degeneration (AMD) and cataracts), neurodegenerative diseases (Alzheimer's disease, multiple sclerosis), chronic inflammatory diseases (chronic inflammatory bowel disease (IBD)) as well as certain rare genetic diseases (Niemann Pick's disease, X-linked adrenoleukodystrophy (X-ALD)). Oxidative stress can oxidize various molecules, in particular the cholesterol present in lipid membranes, and lead to the formation of oxidized cholesterol derivatives: oxysterols. Some of them, such as 7-ketocholesterol (7KC), are toxic and may be the cause of a type o…

OxysterolOxiapoptophagyStress oxydantOxidative stressCytoprotection[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyOxystérolsPeroxisome[SDV.BBM.BM] Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologyPeroxysome7-Ketocholesterol7-CétocholestérolOxyapoptophagie
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PPAR-γ Agonist GW1929 But Not Antagonist GW9662 Reduces TBBPA-Induced Neurotoxicity in Primary Neocortical Cells

2013

Tetrabromobisphenol A (2,2-bis(4-hydroxy-3,5-dibromophenyl)propane; TBBPA) is a widely used brominated flame retardant. TBBPA induces neuronal damage, but the mechanism by which this occurs is largely unknown. We studied the possible involvement of peroxisome proliferator-activated receptor gamma (PPAR-γ) in TBBPA-induced apoptosis and toxicity in mouse primary neuronal cell cultures. TBBPA enhanced both, caspase-3 activity and lactate dehydrogenase (LDH) release in neocortical cells after 6 and 24 h of exposition. These data were supported at the cellular level with Hoechst 33342 staining. Immunoblot analyses showed that, compared with control cells, 10 μM TBBPA decreased the expression of…

PPAR-γTime FactorsNeuroscience(all)Polybrominated BiphenylsPeroxisome proliferator-activated receptorGW1929Caspase 3ApoptosisNeocortexPharmacologyBiologyToxicologyNeuroprotectionBenzophenonesMicemedicineNeurotoxicityAnimalsAnilidesReceptorCells Culturedchemistry.chemical_classificationNeuronsDose-Response Relationship DrugL-Lactate DehydrogenaseCaspase 3General NeuroscienceNeurotoxicityApoptotic bodymedicine.diseasePPAR gammaTBBPANeuroprotective AgentschemistryCell cultureApoptosisTyrosineNeurotoxicity SyndromesOriginal ArticleCentral Nervous System AgentsNeurotoxicity Research
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Myoglobin, expressed in brown adipose tissue of mice, regulates the content and activity of mitochondria and lipid droplets

2021

Abstract The identification of novel physiological regulators that stimulate energy expenditure through brown adipose tissue (BAT) activity in substrate catalysis is of utmost importance to understand and treat metabolic diseases. Myoglobin (MB), known to store or transport oxygen in heart and skeletal muscles, has recently been found to bind fatty acids with physiological constants in its oxygenated form (i.e., MBO2). Here, we investigated the in vivo effect of MB expression on BAT activity. In particular, we studied mitochondrial function and lipid metabolism as essential determinants of energy expenditure in this tissue. We show in a MB-null (MBko) mouse model that MB expression in BAT i…

PalmitatesOxidative phosphorylationMitochondrion1307 Cell BiologyMiceAdipose Tissue BrownLipid dropletBrown adipose tissueRespiration1312 Molecular BiologymedicineAnimalsHumansPPAR alpha11434 Center for Clinical StudiesMuscle SkeletalMolecular BiologyUncoupling Protein 1Mice KnockoutMyoglobinChemistryProteinsThermogenesisLipid metabolismLipid DropletsCell BiologyMetabolism10081 Institute of Veterinary PhysiologyPeroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alphaMitochondriaCell biologyOxygenDisease Models AnimalAdipocytes Brownmedicine.anatomical_structure10076 Center for Integrative Human Physiology570 Life sciences; biologyApoptosis Regulatory ProteinsEnergy MetabolismThermogenesisBiochimica et Biophysica Acta (BBA) - Molecular and Cell Biology of Lipids
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The Blood–Brain Barrier as a Target in Traumatic Brain Injury Treatment

2014

Traumatic brain injury (TBI) is one of the most frequent causes of death in the young population. Several clinical trials have unsuccessfully focused on direct neuroprotective therapies. Recently immunotherapeutic strategies shifted into focus of translational research in acute CNS diseases. Cross-talk between activated microglia and blood–brain barrier (BBB) could initiate opening of the BBB and subsequent recruitment of systemic immune cells and mediators into the brain. Stabilization of the BBB after TBI could be a promising strategy to limit neuronal inflammation, secondary brain damage and acute neurodegeneration. This review provides an overview on the pathophysiology of TBI and brain…

Pathologymedicine.medical_specialtyTraumatic brain injuryPeroxisome Proliferator-Activated ReceptorsBrain EdemaInflammationBrain damageBlood–brain barrierNeuroprotectionRosiglitazoneReceptors GlucocorticoidmedicineHumansHypoglycemic AgentsMyosin-Light-Chain KinaseNeuroinflammationInflammationPioglitazoneMicrogliabusiness.industryNeurodegenerationNeurodegenerative DiseasesGeneral Medicinemedicine.diseaseCell HypoxiaNeuroprotective Agentsmedicine.anatomical_structurenervous systemBlood-Brain BarrierBrain InjuriesThiazolidinedionesmedicine.symptombusinessNeuroscienceArchives of Medical Research
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The human peroxisome in health and disease: The story of an oddity becoming a vital organelle

2013

Abstract Since the first report by Rhodin in 1954, our knowledge on mammalian microbodies/peroxisomes has known several periods. An initial two decades period (1954–1973) has contributed to the biochemical individualisation of peroxisomes as a new class of subcellular organelles (de Duve, 1965). The corresponding research period failed to define a clear role of mammalian peroxisomes in vital functions and intermediary metabolism, explaining why feeling that peroxisomes might be in the human cell oddities has prevailed during several decades. The period standing from 1973 to nowadays has progressively removed this cell oddity view of peroxisomes by highlighting vital function and metabolic r…

Peroxisome Proliferator-Activated ReceptorsDiseaseBiologyCell FractionationMicrobodiesBiochemistryPeroxisomal DisordersOrganellePeroxisomal disorderCentrifugation Density GradientPeroxisomesmedicineAnimalsHumansMicrobodyZellweger SyndromeOrganelle envelopeFatty AcidsGeneral MedicinePeroxisomeLipid Metabolismmedicine.diseaseCell biologyBiochemistryNuclear receptorMetabolic Networks and PathwaysFunction (biology)Biochimie
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