Search results for " Mitochondrial"

showing 10 items of 492 documents

One Enzyme, Two Functions

2010

The human enzyme paraoxonase-2 (PON2) has two functions, an enzymatic lactonase activity and the reduction of intracellular oxidative stress. As a lactonase, it dominantly hydrolyzes bacterial signaling molecule 3OC12 and may contribute to the defense against pathogenic Pseudomonas aeruginosa. By its anti-oxidative effect, PON2 reduces cellular oxidative damage and influences redox signaling, which promotes cell survival. This may be appreciated but also deleterious given that high PON2 levels reduce atherosclerosis but may stabilize tumor cells. Here we addressed the unknown mechanisms and linkage of PON2 enzymatic and anti-oxidative function. We demonstrate that PON2 indirectly but specif…

chemistry.chemical_classificationReactive oxygen speciesbiologySuperoxideCytochrome cParaoxonaseCell BiologyMitochondrionBiochemistrychemistry.chemical_compoundchemistryBiochemistryCoenzyme Q – cytochrome c reductasebiology.proteinLactonaseInner mitochondrial membraneMolecular BiologyJournal of Biological Chemistry
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Brain glucose sensing and energy balance: role of mitochondrial reactive oxygen species

2012

Brain glucose sensing and energy balance: role of mitochondrial reactive oxygen species . 7. congrès de physiologie, de pharmacologie et de thérapeutique (P2T)

glucose sensing[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutritionphysiologie du système nerveuxchaîne respiratoire mitochondrialeROS signaling[SDV.AEN] Life Sciences [q-bio]/Food and Nutritionmitochondrie[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]fissioncerveau[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC][SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]hypothalamusdynamique mitochondrialeglucose[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition
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Rôle de la mitochondrie dans le glucose sensing cérébral

2014

glucose-sensing[SDV.AEN] Life Sciences [q-bio]/Food and Nutritionespèce active de l'oxygènemitochondrie[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutrition[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC][SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC][SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]hypothalamusdynamique mitochondriale[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition
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Stability and disassembly properties of human naïve Hsp60 and bacterial GroEL chaperonins.

2015

Human Hsp60 chaperonin and its bacterial homolog GroEL, in association with the corresponding co-chaperonins Hsp10 and GroES, constitute important chaperone systems promoting the proper folding of several mitochondrial proteins. Hsp60 is also currently described as a ubiquitous molecule with multiple roles both in health conditions and in several diseases. Naïve Hsp60 bearing the mitochondrial import signal has been recently demonstrated to present different oligomeric organizations with respect to GroEL, suggesting new possible physiological functions. Here we present a combined investigation with circular dichroism and small-angle X-ray scattering of structure, self-organization, and sta…

guanidiniun chloride0301 basic medicineGuanidinium chlorideSmall AngleCircular dichroismBiophysicsmacromolecular substancesBiochemistryGroELChaperoninScatteringMitochondrial Proteins03 medical and health scienceschemistry.chemical_compoundBacterial ProteinsX-Ray DiffractionScattering Small AngleHumansGuanidinebiologyProtein StabilityCircular DichroismOrganic ChemistryTemperatureGroESSAXSChaperonin 60Hsp60GroELSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)CDcited By 5enzymes and coenzymes (carbohydrates)Denaturation030104 developmental biologychemistryBiochemistryChaperone (protein)biological sciencesbiology.proteinCD; Denaturation; GroEL; Guanidinium chloride; Hsp60; SAXS; Bacterial Proteins; Chaperonin 60; Circular Dichroism; Humans; Mitochondrial Proteins; Protein Stability; Scattering Small Angle; Temperature; X-Ray DiffractionbacteriaHSP60Guanidinium chlorideBiophysical chemistry
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Towards the standardization of mitochondrial proteomics: the Italian mt-HPP initiative

2017

The mitochondrial Human Proteome Project aims at understanding the function of the mitochondrial proteome and its crosstalk with the proteome of other organelles. Being able to choose a suitable and validated enrichment protocol of functional mitochondria, based on the specific needs of the downstream proteomics analysis, would greatly help the researchers in the field. Mitochondrial fractions from ten model cell lines were prepared using three enrichment protocols and analyzed on seven different LC-MS/MS platforms. All data were processed using neXtProt as reference database. The data are available for the Human Proteome Project purposes through the ProteomeXchange Consortium with the iden…

itlian mt-HPP iniziativeMitochondria standardization enrichment protocol Mitochondrial Human Proteome Projectmitochondrial proteomicBIO/10 - BIOCHIMICAproteomic
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Immunoaffinity purification and characterization of mitochondrial membrane-bound D-3-hydroxybutyrate dehydrogenase from Jaculus orientalis.

2008

Abstract Background The interconversion of two important energy metabolites, 3-hydroxybutyrate and acetoacetate (the major ketone bodies), is catalyzed by D-3-hydroxybutyrate dehydrogenase (BDH1: EC 1.1.1.30), a NAD+-dependent enzyme. The eukaryotic enzyme is bound to the mitochondrial inner membrane and harbors a unique lecithin-dependent activity. Here, we report an advanced purification method of the mammalian BDH applied to the liver enzyme from jerboa (Jaculus orientalis), a hibernating rodent adapted to extreme diet and environmental conditions. Results Purifying BDH from jerboa liver overcomes its low specific activity in mitochondria for further biochemical characterization of the e…

lcsh:Animal biochemistryMESH : AgedMESH : RodentiaMESH: RodentiaMESH: Base SequenceBiochemistryMESH: Lipid PeroxidationMESH : Information ServicesAntigen-Antibody ReactionsMESH: Health EducationEpitopesMESH: OrganizationsMESH: LibrariesMESH: Antigen-Antibody Reactionslcsh:QD415-436MESH: AnimalsMESH : OrganizationsMESH : Physician's RoleMESH: Bacterial ProteinsImmunosorbent Techniqueschemistry.chemical_classificationMESH: Conserved SequenceMethodology ArticleMESH : Computer Communication NetworksMESH: Chromatography AffinityMESH : Pseudomonas aeruginosaMESH : Chromatography AffinityMESH : Immunosorbent TechniquesMESH: Ethnic GroupsMESH : Ethnic GroupsMESH: EpitopesMESH : Patient SatisfactionMESH : United StatesMESH: MitochondriaMESH : Antigen-Antibody ReactionsMolecular Sequence DataMESH : Hydroxybutyrate DehydrogenaseMESH: Sequence AlignmentRodentiaMESH: Information ServicesMESH : Epitopeslcsh:BiochemistryMESH : Mitochondrial MembranesBacterial ProteinsMESH : Conserved SequenceComplementary DNAMESH : LibrariesMolecular Biology[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular BiologyMESH: Immunosorbent TechniquesMESH: Molecular Sequence DataMESH: HumansMESH : Consumer ParticipationMESH : HumansMESH: AdultMESH: Patient SatisfactionMESH: Hydroxybutyrate DehydrogenaseMESH: Consumer ParticipationchemistryLipid PeroxidationMESH: FemaleMESH: LiverMESH : Sequence Analysis DNAMESH: Continental Population GroupsMESH: Sequence Analysis DNAMESH : Molecular Sequence DataDehydrogenaseChromatography AffinityMESH: Mitochondrial MembranesMESH: Antibodies BacterialMESH : Bacterial ProteinsMESH : FemaleMESH: Computer Communication NetworksConserved SequenceMESH: AgedbiologyMESH : Lipid PeroxidationMESH : Sequence AlignmentMESH: Physician's RoleMESH : AdultAntibodies BacterialMitochondriaAmino acidLiverBiochemistryMitochondrial MembranesPseudomonas aeruginosaMESH: Pseudomonas aeruginosaMESH : MitochondriaMESH : Mass MediaMESH: Mass MediaMESH : MaleHydroxybutyrate DehydrogenaseAffinity chromatographyMESH : Health Education[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyMESH: United StatesAnimals[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyMESH : Antibodies Bacteriallcsh:QP501-801Jaculus orientalisMESH : Continental Population GroupsBase SequenceMESH : LiverSequence Analysis DNAbiology.organism_classificationMolecular biologyMESH: MaleEnzymePolyclonal antibodiesbiology.proteinMESH : Base SequenceNAD+ kinaseMESH : AnimalsSequence Alignment
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Retracted: Targeting Mitochondria as Therapeutic Strategy for Metabolic Disorders.

2019

Mitochondria are critical regulator of cell metabolism; thus, mitochondrial dysfunction is associated with many metabolic disorders. Defects in oxidative phosphorylation, ROS production, or mtDNA mutations are the main causes of mitochondrial dysfunction in many pathological conditions such as IR/diabetes, metabolic syndrome, cardiovascular diseases, and cancer. Thus, targeting mitochondria has been proposed as therapeutic approach for these conditions, leading to the development of small molecules to be tested in the clinical scenario. Here we discuss therapeutic interventions to treat mitochondrial dysfunction associated with two major metabolic disorders, metabolic syndrome, and cancer. …

lcsh:Tlcsh:Rlcsh:MedicineReview ArticleDNA Mitochondriallcsh:TechnologyOxidative PhosphorylationRetractionMitochondriaMetabolic DiseasesMutationHumanslcsh:QReactive Oxygen Specieslcsh:ScienceTheScientificWorldJournal
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N-Methyl-β-carboline alkaloids: structure-dependent photosensitizing properties and localization in subcellular domains

2020

N-Methyl-β-carboline (βC) alkaloids, including normelinonine F (1b) and melinonine F (2b), have been found in a vast range of living species playing different biological, biomedical and/or pharmacological roles. Despite this, molecular bases of the mechanisms through which these alkaloids would exert their effect still remain unknown. Fundamental aspects including the photosensitizing properties and intracellular internalization of a selected group of N-methyl-βC alkaloids were investigated herein. Data reveal that methylation of the βC main ring enhances its photosensitizing properties either by increasing its binding affinity with DNA as a biomolecular target and/or by increasing its oxid…

media_common.quotation_subjectOrganic ChemistryN-Methyl-β-carbolineFísicaQuímicaMethylationMitochondrionalkaloidsSubcellular localizationBiochemistrychemistry.chemical_compoundchemistrymelinonine FBiophysicsPhysical and Theoretical ChemistryInner mitochondrial membranePurine metabolismInternalizationnormelinonine FDNAIntracellularmedia_commonOrganic & Biomolecular Chemistry
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Cytotoxic effects of Jay Amin hydroxamic acid (JAHA), a ferrocene-based class I histone deacetylase inhibitor, on triple-negative MDA-MB231 breast ca…

2012

The histone deacetylase inhibitors (HDACis) are a class of chemically heterogeneous anticancer agents of which suberoylanilide hydroxamic acid (SAHA) is a prototypical member. SAHA derivatives may be obtained by three-dimensional manipulation of SAHA aryl cap, such as the incorporation of a ferrocene unit like that present in Jay Amin hydroxamic acid (JAHA) and homo-JAHA [ Spencer , et al. ( 2011 ) ACS Med. Chem. Lett. 2 , 358 - 362 ]. These metal-based SAHA analogues have been tested for their cytotoxic activity toward triple-negative MDA-MB231 breast cancer cells. The results obtained indicate that of the two compounds tested, only JAHA was prominently active on breast cancer cells with a…

medicine.drug_classCell SurvivalMetallocenesAntineoplastic AgentsApoptosisToxicologyHydroxamic AcidsStructure-Activity RelationshipIn vivoAnnexinmedicineTumor Cells CulturedCytotoxic T cellHumansFerrous CompoundsSettore BIO/06 - Anatomia Comparata E Citologiachemistry.chemical_classificationMembrane Potential MitochondrialReactive oxygen speciesDose-Response Relationship DrugMolecular StructureChemistryHistone deacetylase inhibitorCell CycleGeneral MedicineIn vitroHistone Deacetylase InhibitorsBiochemistryhistone deacetylase inhibitor breast cancer autophagy apoptosis mitochondria cell cycleApoptosisCancer researchHistone deacetylaseDrug Screening Assays AntitumorReactive Oxygen Species
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Aging of the liver: Age-associated mitochondrial damage in intact hepatocytes

1996

Mitochondrial damage may be a major cause of cellular aging. So far, this hypothesis had only been tested using isolated mitochondria. The aim of this study was to investigate the involvement of mitochondria in aging using whole liver cells and not isolated mitochondria only. Using flow cytometry, we found that age is associated with a decrease in mitochondrial membrane potential (30%), an increase in mitochondrial size, and an increase in mitochondrial peroxide generation (23%). Intracellular peroxide levels were also increased. The number of mitochondria per cell and inner mitochondrial membrane mass did not change. Gluconeogenesis from glycerol or fructose (mitochondrial-independent) did…

medicine.medical_specialtyHepatologyMitochondrionBiologyMitochondrial SizePyruvate carboxylaseEndocrinologyMitochondrial permeability transition poreGluconeogenesisInternal medicinemedicinesense organsATP–ADP translocaseInner mitochondrial membranePhosphoenolpyruvate carboxykinaseHepatology
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