Search results for "Cytochrome p450"

showing 10 items of 135 documents

Polymorphism of cytochrome P450 (CYP) genes and response to chemiotherapy in patients with colorectal cancer (CRC)

2014

Background: Genes coding for the cytochrome P450 (CYP) enzyme system implied in antineoplastic drug metabolism pathways are highly polymorphic. This may influence both carcinogen metabolism and drug pharmacodynamics modifying their therapeutic efficacy and side effects. Methods: We investigated the influence of genetic polymorphisms of CYP enzymes: rs1799853 (CYP2C9), rs35742686 (CYP2D), rs5030655 (CYP2D6/3), rs2740574 (CYP3A4/1) rs776746 (CYP3A5) on the response of chemotherapy and clinical outcomes, in a group of 56 patients affected by sporadic CRC, treated with the standard protocols. A total of 44 patients were in complete remission after treatment, 12 had persistence of the disease. P…

Colorectal Cancer (CRC) Polymorphisms of Cytochrome P450 (CYP) Genes
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Biotransformation of caffeine and theophylline in mammalian cell lines genetically engineered for expression of single cytochrome P450 isoforms

1992

Primary steps in the metabolism of caffeine and theophylline are cleavage of methyl groups and/or hydroxylation at position 8, mediated by cytochromes P450. V79 Chinese hamster cells genetically engineered for stable expression of single forms of rat cytochromes P450IA1, P450IA2 and P450IIBI and human P450IA2 and rat liver epithelial cells expressing murine P450IA2 were used to overcome problems arising in the proper allocation of metabolic pathways to specific isoforms by conventional techniques. These cell lines were exposed to caffeine and/or theophylline, and concentrations of metabolites formed in the medium were determined by HPLC. Caffeine was metabolized by human, rat and murine P45…

CytochromeBiologyHydroxylationMethylationBiochemistryIsozymeChinese hamsterCell LineHydroxylationMicechemistry.chemical_compoundCytochrome P-450 Enzyme SystemSpecies SpecificityTheophyllineCaffeineCricetinaemedicineAnimalsHumansTheophyllineBiotransformationChromatography High Pressure LiquidPharmacologyCytochrome P450biology.organism_classificationRatschemistryBiochemistryCell cultureXanthinesbiology.proteinGenetic EngineeringCaffeinemedicine.drugBiochemical Pharmacology
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Applications of stable V79-derived cell lines expressing rat cytochromes P4501A1, 1A2, and 2B1.

1992

1. Chinese hamster V79-derived cell lines, stably expressing cytochromes P4501A1, 1A2, and 2B1 activities, were constructed by genetic engineering in continuation of our work to establish a battery of V79 derived cell lines designed to study the metabolism of xenobiotics. 2. Cell lines XEM1 and XEM2, expressing cytochrome P4501A1, were capable of the O-dealkylation of 7-ethoxycoumarin and the hydroxylation of benzo[a]pyrene. 3. Cell lines XEMd.MZ and XEMd.NH, expressing P4501A2, were shown to hydroxylate 17 beta-estradiol and 2-aminofluorene. 4. Cell line SD1, expressing cytochrome P4502B1, was able to hydroxylate testosterone stereo- and regio-specifically at the 16 alpha and 16 beta posit…

CytochromeHealth Toxicology and Mutagenesis78-Dihydro-78-dihydroxybenzo(a)pyrene 910-oxideGenetic VectorsDNA RecombinantHamsterHydroxylationToxicologyBiochemistryChinese hamsterlaw.inventionCell LineDihydroxydihydrobenzopyrenesMixed Function OxygenasesHydroxylationchemistry.chemical_compoundCricetulusCytochrome P-450 Enzyme SystemlawCytochrome P-450 CYP1A2CricetinaeBenzo(a)pyreneAnimalsCloning MolecularCytotoxicityCyclophosphamideBiotransformationPharmacologybiologyCytochrome P450General Medicinebiology.organism_classificationMolecular biologyRatsBiochemistrychemistryCell cultureRecombinant DNAbiology.proteinOxidoreductasesXenobiotica; the fate of foreign compounds in biological systems
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Bleomycin genotoxicity alteration by glutathione and cytochrome P-450 cellular content in respiratory proficient and deficient strains of Saccharomyc…

1999

The genotoxic effects of the antiblastic drug bleomycin were studied in the D7 strain of Saccharomyces cerevisiae and on its derivative mitochondrial mutant rho degree at different cellular concentrations of two drug metabolizing systems, glutathione (GSH) and cytochrome P-450. Bleomycin mutagenic activity was evaluated as frequencies of mitotic gene conversion, reversion and total aberrations under different physiological conditions. In the D7 strain, petite mutant induction was also detected. This is important due to the role of the mitochondrial genome in cancer induction, ageing and degenerative diseases. Both strains showed higher convertant than revertant induction. At high cytochrome…

CytochromeHealth Toxicology and MutagenesisSaccharomyces cerevisiaeMutantRespiratory chainCell Culture TechniquesSaccharomyces cerevisiaeToxicologymedicine.disease_causeBleomycinDNA Mitochondrialchemistry.chemical_compoundBleomycinOxygen ConsumptionCytochrome P-450 Enzyme SystemGeneticsmedicinePoint MutationGenetics (clinical)Chromosome AberrationsRecombination GeneticbiologyDose-Response Relationship DrugMutagenicity TestsCytochrome P450Glutathionebiology.organism_classificationGlutathioneBiochemistrychemistryMutagenesisbiology.proteinGenotoxicityMutagenesis
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All-Atom simulations disclose how cytochrome reductase reshapes the substrate access/egress routes of its partner cyp450s

2020

Cytochromes P450 enzymes (CYP450s) promote the oxidative metabolism of a variety of substrates via the electrons supplied by the cytochrome P450 reductase (CPR) and upon formation of a CPR/CYP450 adduct. In spite of the pivotal regulatory importance of this process, the impact of CPR binding on the functional properties of its partner CYP450 remains elusive. By performing multiple microsecond-long all-Atom molecular dynamics simulations of a 520â »000-Atom model of a CPR/CYP450 adduct embedded in a membrane mimic, we disclose the molecular terms for their interactions, considering the aromatase (HA) enzyme as a proxy of the CYP450 family. Our study strikingly unveils that CPR binding alters…

CytochromeStereochemistryeducationPlasma protein binding-ReductaseMolecular Dynamics Simulation010402 general chemistry01 natural sciencesSubstrate SpecificityElectron Transport03 medical and health sciencesAromataseCytochrome P-450 Enzyme Systemhealth services administrationHumansddc:530General Materials Sciencecardiovascular diseasesP450 EnzymesPhysical and Theoretical Chemistryhealth care economics and organizations030304 developmental biologyNADPH-Ferrihemoprotein Reductase0303 health sciencesOxidative metabolismbiologyChemistrySubstrate (chemistry)Cytochrome P450 reductaseElectron transport chain0104 chemical sciencesAromatase; Cytochrome P-450 Enzyme System; Electron Transport; Humans; Molecular Dynamics Simulation; NADPH-Ferrihemoprotein Reductase; Protein Binding; Substrate SpecificitySettore CHIM/03 - Chimica Generale E Inorganicabiology.proteintherapeuticsProtein Binding
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Biotransformation of methylxanthines in mammalian cell lines genetically engineered for expression of single cytochrome P450 isoforms. Allocation of …

1993

V79 Chinese hamster cells genetically engineered for stable expression of single forms of rat cytochromes P450IA1, P450IA2, P450IIB1, human P450IA2, and rat liver epithelial cells expressing murine P450IA2 were used to allocate metabolic pathways of methylxanthines to specific isoforms and to test the suitability of such cell lines for investigations on drug interactions occurring at the cytochrome expressed. The cell lines were exposed to caffeine and/or theophylline and concentrations of metabolites formed in the medium were determined by HPLC. Caffeine was metabolized by human, rat and murine P450IA2, resulting in the formation of four primary demethylated and hydroxylated metabolites. H…

CytochromeToxicologyCell Linechemistry.chemical_compoundCricetulusCytochrome P-450 Enzyme SystemIn vivoCaffeineCricetinaemedicineAnimalsHumansTheophyllineBiotransformationChromatography High Pressure LiquidbiologyCytochrome P450PefloxacinPipemidic AcidRatsIsoenzymesMetabolic pathwayBiochemistrychemistryCell cultureMicrosomebiology.proteinQuinolinesCaffeinemedicine.drugToxicology
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Cytochrome c is released in a single step during apoptosis

2005

Release of cytochrome c from mitochondria is a central event in apoptotic signaling. In this study, we utilized a cytochrome c fusion that binds fluorescent biarsenical ligands (cytochrome c-4CYS (cyt. c-4CYS)) as well as cytochrome c-green fluorescent protein (cyt. c-GFP) to measure its release from mitochondria in different cell types during apoptosis. In single cells, the kinetics of cyt. c-4CYS release was indistinguishable from that of cyt. c-GFP in apoptotic cells expressing both molecules. Lowering the temperature by 7 degrees C did not affect this corelease, but further separated cytochrome c release from the subsequent decrease in mitochondrial membrane potential (DeltaPsi(m)). Cyt…

CytochromeUltraviolet RaysGreen Fluorescent ProteinsApoptosisLigandsMembrane PotentialsJurkat CellsCytochrome C1HumansCytochrome c oxidaseEnzyme InhibitorsMolecular BiologyProtein Synthesis InhibitorsMicroscopy VideobiologyTumor Necrosis Factor-alphaCytochrome bCytochrome cTemperatureCytochromes cCytochrome P450 reductaseCell BiologyStaurosporineMitochondriaCell biologyKineticsenzymes and coenzymes (carbohydrates)Coenzyme Q – cytochrome c reductaseDactinomycinbiology.proteinApoptosomeBiomarkersHeLa CellsCell Death & Differentiation
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Hepatic metabolism of diclofenac: role of human CYP in the minor oxidative pathways.

1999

The aim of this study was to re-examine the human hepatic metabolism of diclofenac, with special focus on the generation of minor hydroxylated metabolites implicated in the idiosyncratic hepatotoxicity of the drug. Different experimental approaches were used: human hepatocytes, human microsomes, and engineered cells expressing single human CYP (cytochromes P450). Human hepatocytes formed 3'-hydroxy-, 4'-hydroxy-, 5-hydroxy- 4',5-dihydroxy-, and N,5-dihydroxydiclofenac, as well as several lactams. Formation of 4'- and 5-hydroxydiclofenac by human liver microsomes followed a Michaelis-Menten kinetics (Km 9 +/- 1 microM; Vmax 432 +/- 15 pmol/min/mg and Km 43 +/- 5 microM; and Vmax 15.4 +/- 0.6…

DiclofenacMetaboliteIn Vitro TechniquesBiochemistryCell LineHydroxylationCytochrome P-450 CYP2C8chemistry.chemical_compoundTolbutamideCytochrome P-450 Enzyme SystemmedicineHumansBiotransformationCytochrome P-450 CYP2C9PharmacologybiologyAnti-Inflammatory Agents Non-SteroidalCytochrome P450Metabolismmedicine.anatomical_structureBiochemistrychemistrySteroid 16-alpha-HydroxylaseHepatocyteSteroid HydroxylasesMicrosomebiology.proteinMicrosomes LiverAryl Hydrocarbon HydroxylasesOxidation-ReductionDrug metabolismmedicine.drug
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The Influence of Single-Dose and Short-Term Administration of Quercetin on the Pharmacokinetics of Midazolam in Humans.

2015

Quercetin is a plant flavonol that is available from both daily diet and nutraceuticals. To investigate the effect of acute and short-term intake of high-dose quercetin on CYP3A-mediated metabolism, 10 healthy volunteers received 7.5 mg oral midazolam without, with a single dose of 1500 mg quercetin and after 1-week supplementation with 1500 mg quercetin daily. A substudy was performed in three subjects to explore the impact of repeated quercetin intake on intravenously administered midazolam. Coadministration with a single dose of quercetin did not significantly alter the pharmacokinetics of midazolam and its 1'-hydroxymetabolite, but following short-term quercetin intake, there was a tren…

DrugAdultMalemedia_common.quotation_subjectMidazolamPharmaceutical ScienceAdministration OralPharmacologychemistry.chemical_compoundPharmacokineticsmedicineCytochrome P-450 CYP3AHumansheterocyclic compoundsDrug InteractionsAdverse effectmedia_commonCross-Over StudiesbiologyCytochrome P450MetabolismBioavailabilitychemistryArea Under Curvebiology.proteinMidazolamAdministration IntravenousFemaleQuercetinQuercetinmedicine.drugJournal of pharmaceutical sciences
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Hepatocytes--the choice to investigate drug metabolism and toxicity in man: in vitro variability as a reflection of in vivo.

2007

The pharmaceutical industry is committed to marketing safer drugs with fewer side effects, predictable pharmacokinetic properties and quantifiable drug-drug interactions. Drug metabolism is a major determinant of drug clearance and interindividual pharmacokinetic differences, and an indirect determinant of the clinical efficacy and toxicity of drugs. Progressive advances in the knowledge of metabolic routes and enzymes responsible for drug biotransformation have contributed to understanding the great metabolic variations existing in human beings. Phenotypic as well genotypic differences in the expression of the enzymes involved in drug metabolism are the main causes of this variability. How…

DrugDiclofenacDrug-Related Side Effects and Adverse Reactionsmedia_common.quotation_subjectBiologyPharmacologyIn Vitro TechniquesToxicologyModels BiologicalPharmacokineticsCytochrome P-450 Enzyme SystemIn vivoGenetic variationHumansDrug InteractionsPharmacokineticsBiotransformationCells Culturedmedia_commonMolecular StructureAnti-Inflammatory Agents Non-SteroidalCytochrome P450Genetic VariationGeneral MedicineIn vitroPharmaceutical PreparationsToxicityInactivation Metabolicbiology.proteinHepatocytesDrug metabolismMetabolic Networks and PathwaysChemico-biological interactions
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