Search results for "Phototoxicity"

showing 10 items of 29 documents

Phytochemical profiles, phototoxic and antioxidant properties of eleven Hypericum species - A comparative study

2018

Hypericum is one out of the nine genera belonging to the botanical family Clusiaceae Lindl (syn. Hypericaceae Juss.; APG III, 2009). The genus contains 484 species spread worldwide, one of which, Hypericum perforatum, is largely used in folk medicine. The aim of this study was to evaluate the chemical composition, along with the antioxidant and phototoxic activity, of 11 Hypericum species grown in Sicily (H. perforatum L., H. aegypticum L., H. androsaemum L., H. calycinum L., H. hircinum L., H. hirsutum L., H. montanum L., H. patulum Thunb., H. perfoliatum L., H. pubescens Boiss., H. tetrapterum Fr.). Samples of flowering tops collected from these Hypericum species were extracted and analys…

0106 biological sciencesDPPHHyperforinAntioxidants Hyperforin Hypericin Hypericum species (Clusiaceae Lindl.) Phototoxicity; PolyphenolsPhytochemicalsHypericinFlowersPlant ScienceHorticultureHypericaceae01 natural sciencesBiochemistryAntioxidantsMass SpectrometryPhototoxicityMicechemistry.chemical_compoundPicratesSpecies SpecificityHypericum species (Clusiaceae Lindl.) Phototoxicity Polyphenols Hypericin Hyperforin AntioxidantsAnimalsHypericum species (Clusiaceae Lindl.)Molecular BiologyChromatography High Pressure LiquidbiologyTraditional medicine010405 organic chemistryChemistryBiphenyl CompoundsPolyphenolsHypericum perforatumGeneral MedicineFibroblastsbiology.organism_classificationSettore AGR/02 - Agronomia E Coltivazioni Erbacee0104 chemical sciencesHypericinHyperforinPhotochemotherapyPhytochemicalPolyphenolNIH 3T3 CellsAntioxidantReactive Oxygen SpeciesHypericumHypericumDermatitis Phototoxic010606 plant biology & botany
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Alternative Methods to Animal Testing in Safety Evaluation of Cosmetic Products

2018

Abstract This chapter reviews alternative methods recommended for animal testing in various toxicological areas. An alternative model to achieve complete animal replacement for acute toxicity testing is not possible. Skin corrosion/irritation alternative methods have been validated and accepted. For eye irritation testing, no single method is able to replace the Draize rabbit eye test. Skin sensitization methods imply refinement and reduction of numbers of animals. An in vitro dermal absorption test could be an alternative to in vivo testing. There are no generally accepted alternative methods to replace the usual repeated-dose toxicity in vivo assays. To determine the genotoxic and mutagen…

0301 basic medicineAlternative methodsbusiness.industrySkin sensitizationDevelopmental toxicityBioinformaticsmedicine.disease_cause03 medical and health sciences030104 developmental biology0302 clinical medicineToxicityMedicineIrritationAnimal testingbusinessPhototoxicityAcute toxicity testing030217 neurology & neurosurgery
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Albumin-Folate Conjugates for Drug-targeting in Photodynamic Therapy.

2016

Photodynamic therapy (PDT) is based on the cytotoxicity of photosensitizers in the presence of light. Increased selectivity and effectivity of the treatment is expected if a specific uptake of the photosensitizers into the target cells, often tumor cells, can be achieved. An attractive transporter for that purpose is the folic acid receptor α (FRα), which is overexpressed on the surface of many tumor cells and mediates an endocytotic uptake. Here, we describe the synthesis and photobiological characterization of polar β-carboline derivatives as photosensitizers covalently linked to folate-tagged albumin as the carrier system. The particles were taken up by KB (human carcinoma) cells within …

0301 basic medicineCell Survivalmedicine.medical_treatmentSerum albuminPhotodynamic therapy010402 general chemistry01 natural sciencesBiochemistryPhotodynamic therapyCell Line03 medical and health sciencesFolic AcidmedicineHumansFolate Receptor 1Physical and Theoretical ChemistryCytotoxicityAlbumin conjugatesPhotosensitizing AgentsbiologyChemistryOtras Ciencias QuímicasCiencias QuímicasSerum Albumin BovineGeneral Medicine0104 chemical sciencesB-carbolines030104 developmental biologyTargeted drug deliveryBiochemistryPhotochemotherapyDrug deliveryDrug deliverybiology.proteinFolate receptor 1PhotosensitizationPhototoxicityCIENCIAS NATURALES Y EXACTASConjugateCarbolinesPhotochemistry and photobiology
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Pyrrolo[3',2':6,7]cyclohepta[1,2-b]pyridines with potent photo-antiproliferative activity.

2017

Abstract Pyrrolo[3′,2′:6,7]cyclohepta[1,2-b]pyridines were synthesized as a new class of tricyclic system in which the pyridine ring is annelated to a cycloheptapyrrole scaffold, with the aim of obtaining new photosensitizing agents with improved antiproliferative activity and lower undesired toxic effects. A versatile synthetic pathway was approached, which allowed the isolation of derivatives of the title ring system with a good substitution pattern on the pyrrole moiety. Photobiological studies revealed that the majority of the new compounds showed a potent cytotoxic effect upon photoactivation with light of the proper wavelength, especially when decorated with a 2-ethoxycabonyl group an…

0301 basic medicineLightPyridines01 natural sciencesAntioxidantschemistry.chemical_compound7]cyclohepta[1NeoplasmsDrug DiscoveryTumor Cells CulturedMoietyPyrrolechemistry.chemical_classificationPhotosensitizing AgentsGeneral MedicinePhotosensitizing AgentPyrrolo[3′2′:67]cyclohepta[12-b]pyridine-9(1H)-oneReactive oxygen speciemedicine.symptomPhototoxicity2-b]pyridine-9(1H)-onesStereochemistryBlotting WesternPhoto-antiproliferative activityAntineoplastic AgentsRing (chemistry)Phototoxicity03 medical and health sciencesStructure-Activity RelationshipPyridinemedicineHumansPyrrolo[3′PyrrolesCell ProliferationPharmacologyPhotosensitizing agent010405 organic chemistry2′:6Drug Discovery3003 Pharmaceutical ScienceOrganic ChemistryPhoto-antiproliferative activity; Photosensitizing agents; Phototoxicity; Pyrrolo[3′2′:67]cyclohepta[12-b]pyridine-9(1H)-ones; Reactive oxygen species; Pharmacology; Drug Discovery3003 Pharmaceutical Science; Organic ChemistryCombinatorial chemistry0104 chemical sciences030104 developmental biologychemistryMechanism of actionPhoto-antiproliferative activity; Photosensitizing agents; Phototoxicity; Pyrrolo[3′; 2′:6; 7]cyclohepta[1; 2-b]pyridine-9(1H)-ones; Reactive oxygen species; Pharmacology; Drug Discovery3003 Pharmaceutical Science; Organic ChemistryDrug Screening Assays AntitumorReactive Oxygen SpeciesTricyclicEuropean journal of medicinal chemistry
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Relation of early Photofrin uptake to photodynamically induced phototoxicity and changes of cell volume in different cell lines.

1994

For efficacy of photodynamic therapy, selective uptake and retention of photoactive substances has been postulated. Therefore, measurements were performed to find out whether the photosensitiser Photofrin® is taken up differently in malignant and non-malignant cells in vitro . In addition, the sensitivity of malignant cells and nonmalignant cells to photodynamic exposure was investigated, by quantifying viability and volume alterations of the cells. Bovine aortic endothelial cells, mouse fibroblasts and amelanotic hamster melanoma cells were suspended in a specially designed incubation chamber under controlled conditions (e.g. pH, p O 2 , p CO 2 and temperature). After establishing constant…

Cancer ResearchPathologymedicine.medical_specialtyCell Survivalmedicine.medical_treatmentCellPhotodynamic therapyBiologyFlow cytometryMiceCricetinaemedicineTumor Cells CulturedAnimalsPhotosensitizerViability assayFibroblastMelanomaCells Culturedmedicine.diagnostic_testMesocricetusFibroblastsmedicine.anatomical_structureOncologyPhotochemotherapyCell cultureCancer researchCattleDihematoporphyrin EtherEndothelium VascularPhototoxicityEuropean journal of cancer (Oxford, England : 1990)
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MOLECULAR BASIS OF DRUG PHOTOTOXICITY: PHOTOSENSITIZED CELL DAMAGE BY THE MAJOR PHOTOPRODUCT OF TIAPROFENIC ACID

1994

Tiaprofenic acid is a photosensitizing nonsteroidal anti-inflammatory drug, whose major photoproduct (decarboxytiaprofenic acid) is also a potent photosensitizer. Because of the lack of the carboxylate moiety, this photoproduct is more lipophilic and might bind more efficiently to cell membranes, thereby causing phototoxic damage. To verify the feasibility of this hypothesis, we have prepared the 3H-labeled analogs of tiaprofenic acid and its photoproduct and examined the binding, persistence and phototoxicity of the photoproduct using poorly metabolizing (fibroblasts) and actively metabolizing cells (hepatocytes). The photoproduct of tiaprofenic acid accumulates in both cell types as it is…

Cell typePhotochemistryCellBiochemistryIn vivomedicineHumansPhotosensitizerPhysical and Theoretical ChemistryCell damageCells CulturedBinding SitesPhotosensitizing AgentsChemistryGeneral MedicineFibroblastsmedicine.diseasePhotobleachingmedicine.anatomical_structureBiochemistrybiological sciencessense organsPropionatesPhototoxicityTiaprofenic acidmedicine.drugPhotochemistry and Photobiology
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Intra- and extra-cellular DNA damage by harmine and 9-methyl-harmine

2014

It is known that b-carbolines are able to produce photosensitized damage in cell-free DNA, but there is little information on their effects on cellular DNA. Therefore, we have analyzed the DNA damage produced by harmine and 9-methyl-harmine under UVA irradiation in V79 cells, together with the associated generation of micronuclei and photocytotoxicity. The results indicate that the most frequent photoproducts generated in the cellular DNA are modified purines such as 8-oxo-7,8-dihydroguanine. Only relatively few single-strand breaks were observed. CPDs were absent, although they were generated in cell-free DNA irradiated under the same conditions. The overall extent of DNA damage in the cel…

Guanineb-carbolinesUltraviolet RaysDNA damageBiophysicsFree radical damage to DNACHO CellsMicronucleiBiologyPhototoxicitychemistry.chemical_compoundCricetulusHarmineCyclobutane pyrimidine photodimersCricetinaeAnimalsRadiology Nuclear Medicine and imagingPurine metabolismRadiationRadiological and Ultrasound TechnologyCell growthOtras Ciencias QuímicasCiencias QuímicasDNAHydrogen-Ion ConcentrationHarmineQuímica OrgánicaBiochemistrychemistryMicronucleus testBiophysicsPhotosensitizationPhototoxicityCIENCIAS NATURALES Y EXACTASDNADNA DamageJournal of Photochemistry and Photobiology B: Biology
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THIOPYRANO[2,3-E]INDOL-2-ONES: ANGELICIN HETEROANALOGUES WITH POTENT PHOTOANTIPROLIFERATIVE ACTIVITY

2008

A new class of compounds, the thiopyrano[2,3-e]indol-2-ones, bioisosters of the angular furocoumarin angelicin, was synthesized with the aim of obtaining new photochemotherapeutic agents. In particular 7,8-dimethyl-thiopyranoindolone 6c s showed a remarkable phototoxicity and a great dose UVA dependence reaching IC(50) values at submicromolar level. This latter photoinduced a massive apoptosis and a remarkable photodamage to lipids and proteins. Although it did not intercalate DNA, it was able to cause photooxidation of DNA bases.

IndolesStereochemistryDNA damageUltraviolet RaysAngelicinThiopyrano[23-e ]indol-2-oneClinical BiochemistryPharmaceutical ScienceHL-60 CellsApoptosisThiopyrano[2Antiproliferative activityBiochemistryChemical synthesischemistry.chemical_compoundInhibitory Concentration 50Jurkat CellsAngelicinPhotochemotherapeutic agentsFurocoumarinsDrug DiscoveryThiolactoneTumor Cells CulturedHumansPhotosensitizer3-e ]indol-2-onesMolecular BiologyPhotosensitizing AgentsFurocoumarinOrganic ChemistryProteinsBiological activityThiopyrano[2; 3-e ]indol-2-ones; Angelicin; Antiproliferative activity; Photochemotherapeutic agents; ApoptosisDNASettore CHIM/08 - Chimica FarmaceuticaMitochondriachemistryPhotochemotherapeutic agentMolecular MedicineLipid PeroxidationPhototoxicityDNA Damage
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Retinas of the Diurnal RodentArvicanthis ansorgeiAre Highly Resistant to Experimentally Induced Stress and Degeneration

2011

International audience; PURPOSE. Environmentally induced stress plays a significant role in retinal degeneration and blindness both in animals and in humans. Among such sources of stress, phototoxicity is well studied and has been shown to lead to photoreceptor-specific loss in a number of species. However, the vast majority of studies have been conducted in nocturnal, albino rod-dominant rat and mouse strains, and the pertinence of such findings to human pathology and cone loss is debatable. The authors examined retinal vulnerability to damage in the diurnal murid rodent Arvicanthis ansorgei, a pigmented species with a large number of cones. METHODS. The authors used established protocols …

MaleRetinal degenerationLightRodentsprague dawlayFatty Acids Nonesterifiedbright cyclic lightMicechemistry.chemical_compound0302 clinical medicine[SDV.IDA]Life Sciences [q-bio]/Food engineeringoxidative stressmethyl-N-nitrosoufrea0303 health sciencesbiologymedicine.diagnostic_testmouse retinaRetinal DegenerationMethylnitrosoureaAnatomydocosahexaenoic acidCircadian Rhythmmedicine.anatomical_structureDocosahexaenoic acidRetinal Cone Photoreceptor CellsN-3 fatty acidsPhototoxicityAlkylating Agentsmedicine.medical_specialtylight-induced degeneration03 medical and health sciencesSpecies SpecificityStress Physiologicalbiology.animalInternal medicineElectroretinographymedicineAnimals[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering030304 developmental biologyRetinaRetinalmedicine.diseaseMice Inbred C57BLMuridaeratsTissue DegenerationDisease Models AnimalEndocrinologyrhodopsinchemistryregenerationinduced photoreceptor apoptosis030221 ophthalmology & optometrysense organsElectroretinographyInvestigative Opthalmology & Visual Science
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Oxidative decarboxylation of naproxen.

1992

The decarboxylation of naproxen (1H) and its salt (1-) was achieved by means of chemical [Ce(IV) or S2O8(2-)] and electrochemical oxidation. The product patterns were compatible with mechanisms involving single-electron transfer from the pi-system or the carboxylate moiety. The results are discussed in connection with the involvement of electron-transfer processes in the reported phototoxicity of naproxen.

NaproxenChemistryDecarboxylationPharmaceutical ScienceElectrochemistryOxidantsMedicinal chemistrychemistry.chemical_compoundNaproxenmedicineElectrochemistrySolventsOrganic chemistryMoietyChemical stabilityCarboxylatePhototoxicityOxidation-ReductionOxidative decarboxylationmedicine.drugJournal of pharmaceutical sciences
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