2020
Analysis of Lung Gene Expression Reveals a Role for Cl- channels in Diisocyanate Induced Airway Eosinophilia in a Mouse Model of Asthma Pathology
Wisnewski AV, Liu J, Redlich CA. Analysis of Lung Gene Expression Reveals a Role for Cl- channels in Diisocyanate Induced Airway Eosinophilia in a Mouse Model of Asthma Pathology. American Journal Of Respiratory Cell And Molecular Biology 2020, 0: 25-35. PMID: 32101465, PMCID: PMC7328250, DOI: 10.1165/rcmb.2019-0400oc.Peer-Reviewed Original ResearchConceptsRespiratory tract exposureAirway eosinophiliaMonocytes/macrophagesMouse modelGene expressionGene transcriptsBiological pathwaysAsthma pathologyUpregulated gene transcriptsIgE-independent mechanismsLung gene expressionLung tissue gene expressionCause of asthmaBALB/cTransgenic B cellsTissue gene expressionExpression changesDiisocyanate asthmaSensitized workersAsthma pathogenesisAirway fluidDeficient miceMRNA microarrayEosinophiliaB cells
2017
Reaction products of hexamethylene diisocyanate vapors with “self” molecules in the airways of rabbits exposed via tracheostomy
Wisnewski AV, Kanyo J, Asher J, Goodrich JA, Barnett G, Patrylak L, Liu J, Redlich CA, Nassar AF. Reaction products of hexamethylene diisocyanate vapors with “self” molecules in the airways of rabbits exposed via tracheostomy. Xenobiotica 2017, 48: 488-497. PMID: 28489470, PMCID: PMC5863241, DOI: 10.1080/00498254.2017.1329569.Peer-Reviewed Original ResearchConceptsCollision-induced dissociation (CID) fragmentation patternsReaction productsLower airwaysChemical reactivityLow molecular weight fractionWeight fractionHigh molecular weight fractionAliphatic diisocyanateMolecular weight fractionFragmentation patternsHexamethylenediisocyanateLC-MSHDI vaporAirways of rabbitsBronchoalveolar lavage fluidRabbit bronchoalveolar lavage fluidMoleculesDiisocyanate vaporsMs. 4Albumin. 5Occupational asthmaReactivityBAL fluidAsthma pathogenesisLavage fluid
2011
Subclinical vitamin A deficiency does not increase development of tumors in irradiated or unirradiated lungs
Rockwell S, Liu Y, Mayne ST, Redlich CA. Subclinical vitamin A deficiency does not increase development of tumors in irradiated or unirradiated lungs. Experimental Biology And Medicine 2011, 236: 1173-1179. PMID: 21844122, PMCID: PMC3207150, DOI: 10.1258/ebm.2011.011082.Peer-Reviewed Original ResearchConceptsWhole lung irradiationSubclinical vitaminSpontaneous lung metastasesLung metastasesLung tumorsVitamin ALung irradiationTumor cellsLow vitaminDeficient dietSubcutaneous tumorsPossible modifiable risk factorsSeverity of pneumonitisModifiable risk factorsRadiation-induced pneumonitisEnhancement of metastasisImpact of vitaminDose-dependent increaseLevels of retinolGrowth of tumorsDevelopment of tumorsDose-response curveLung injuryLung levelsPrimary cancer
2008
Lung/skin connections in occupational lung disease
Redlich CA, Herrick CA. Lung/skin connections in occupational lung disease. Current Opinion In Allergy And Clinical Immunology 2008, 8: 115-119. PMID: 18317018, DOI: 10.1097/aci.0b013e3282f85a31.Peer-Reviewed Original ResearchConceptsOccupational lung diseaseLung diseaseChronic beryllium diseaseSkin exposureIsocyanate asthmaBeryllium diseaseSite of sensitizationSubsequent inhalation challengeEnvironmental lung diseaseLimited clinical studiesImpair skin barrier functionSkin barrier functionAsthmatic responseInhalation challengeRespiratory tractHuman skin exposureClinical studiesInhalation exposureRecent studiesAnimal studiesAirborne exposureDiseaseBarrier functionPersonal protective clothingProtein allergens
2006
Skin Exposure to Isocyanates: Reasons for Concern
Bello D, Herrick CA, Smith TJ, Woskie SR, Streicher RP, Cullen MR, Liu Y, Redlich CA. Skin Exposure to Isocyanates: Reasons for Concern. Environmental Health Perspectives 2006, 115: 328-335. PMID: 17431479, PMCID: PMC1849909, DOI: 10.1289/ehp.9557.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsSkin exposureIsocyanate asthmaSuch exposureAsthma-like responsesSubsequent inhalation challengeOccupational SafetyPersonal protective equipmentInhalation challengeOccupational asthmaSystemic sensitizationAsthmaInhalation exposureHealth AdministrationComputerized searchRespiratory exposureRelevant articlesProtective equipmentHuman literatureSkin absorptionSensitizationGoogle databasesNational InstituteLines of evidencePotential roleSufficient evidenceAn FTIR investigation of isocyanate skin absorption using in vitro guinea pig skin
Bello D, Smith TJ, Woskie SR, Streicher RP, Boeniger MF, Redlich CA, Liu Y. An FTIR investigation of isocyanate skin absorption using in vitro guinea pig skin. Environmental Science Processes & Impacts 2006, 8: 523-529. PMID: 16688353, DOI: 10.1039/b517948c.Peer-Reviewed Original ResearchConceptsMethylenediphenyl diisocyanateIsocyanate groupsTotal reflectance Fourier transformReflectance Fourier transformHexamethylene diisocyanate isocyanurateTotal isocyanate groupFTIR investigationAromatic isocyanatesGuinea pig skinChemical groupsIsocyanatesUnreacted speciesSmall compoundsUnreacted compoundsDermal exposureEthyl acetateIsocyanurateHairless guinea pig skinPig skinCompoundsSkin surfaceContact dermatitisDecontamination strategiesResidence timeSkin absorption
2004
Polyisocyanates in occupational environments: A critical review of exposure limits and metrics
Bello D, Woskie SR, Streicher RP, Liu Y, Stowe MH, Eisen EA, Ellenbecker MJ, Sparer J, Youngs F, Cullen MR, Redlich CA. Polyisocyanates in occupational environments: A critical review of exposure limits and metrics. American Journal Of Industrial Medicine 2004, 46: 480-491. PMID: 15490474, DOI: 10.1002/ajim.20076.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements
2003
Differential roles for CD4 and CD8 T cells after diisocyanate sensitization: Genetic control of TH2-induced lung inflammation
Herrick CA, Das J, Xu L, Wisnewski AV, Redlich CA, Bottomly K. Differential roles for CD4 and CD8 T cells after diisocyanate sensitization: Genetic control of TH2-induced lung inflammation. Journal Of Allergy And Clinical Immunology 2003, 111: 1087-1094. PMID: 12743574, DOI: 10.1067/mai.2003.1413.Peer-Reviewed Original ResearchConceptsContact hypersensitivityT cellsAirway eosinophiliaAirway inflammationBALB/c miceDiisocyanate-induced asthmaCD8 T cellsLung inflammatory responseMajor effector cellsIL-13 productionMeans of inhalationNovel mouse modelEpicutaneous exposureAtopic asthmaLung inflammationMucus hypersecretionOccupational asthmaEpicutaneous sensitizationEffector cellsCytokine productionC miceIL-5Serum antibodiesInflammatory responseC57BL/10 micePriorities for development of research methods in occupational cancer.
Ward EM, Schulte PA, Bayard S, Blair A, Brandt-Rauf P, Butler MA, Dankovic D, Hubbs AF, Jones C, Karstadt M, Kedderis GL, Melnick R, Redlich CA, Rothman N, Savage RE, Sprinker M, Toraason M, Weston A, Olshan AF, Stewart P, Zahm SH, Team O. Priorities for development of research methods in occupational cancer. Environmental Health Perspectives 2003, 111: 1-12. PMID: 12524210, PMCID: PMC1241299, DOI: 10.1289/ehp.111-1241299.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsNational Occupational Research AgendaOccupational cancerOccupational cancer researchNumber of cancersCancer researchSecondary preventionSignificant morbidityOccupational cohortOccupational carcinogensEpidemiologic studiesOccupational factorsCarcinogenic processHealth effectsCancerEnvironmental toxicantsIndustrial HygienistsPriority research areasMorbidityRisk assessmentCohortMortalityTeam of expertsHygienistsPrevention
2002
Mouse Models of Diisocyanate Asthma
Redlich CA, Wisnewski AV, Gordon T. Mouse Models of Diisocyanate Asthma. American Journal Of Respiratory Cell And Molecular Biology 2002, 27: 385-390. PMID: 12356570, DOI: 10.1165/rcmb.f249.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsA novel mouse model of diisocyanate-induced asthma showing allergic-type inflammation in the lung after inhaled antigen challenge
Herrick CA, Xu L, Wisnewski AV, Das J, Redlich CA, Bottomly K. A novel mouse model of diisocyanate-induced asthma showing allergic-type inflammation in the lung after inhaled antigen challenge. Journal Of Allergy And Clinical Immunology 2002, 109: 873-878. PMID: 11994714, DOI: 10.1067/mai.2002.123533.Peer-Reviewed Original ResearchConceptsDiisocyanate-induced asthmaNovel mouse modelLung inflammationMouse modelAirway eosinophiliaAntigen challengeHuman asthmaAntigen-induced lung inflammationBALB/c miceAllergic-type inflammationLung inflammatory cellsCytokine-deficient miceVigorous inflammatory responsePrevious mouse modelsAtopic asthmaMucus hypersecretionOccupational asthmaContact hypersensitivityInflammatory cellsC miceInflammatory responseType cytokinesIFN-gammaAsthmaHuman diseasesDiisocyanate asthma: clinical aspects and immunopathogenesis
Redlich CA, Karol MH. Diisocyanate asthma: clinical aspects and immunopathogenesis. International Immunopharmacology 2002, 2: 213-224. PMID: 11811926, DOI: 10.1016/s1567-5769(01)00174-6.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsDiisocyanate asthmaProduction of polyurethanesChemical reactivityBiological nucleophilesClinical aspectsChemical interactionReactive chemicalsRoute of exposureDiisocyanateSimple diagnostic testOccupational asthmaEarly diseaseRespiratory tractNonimmunological mechanismsWorkplace exposuresAsthmaUseful markerReactionDiagnostic testsDiseasePathogenesisImmunopathogenesisBiomoleculesNucleophilesExposure
2001
Development of immunoassays for biomonitoring of hexamethylene diisocyanate exposure.
Lemus R, Lukinskeine L, Bier ME, Wisnewski AV, Redlich CA, Karol MH. Development of immunoassays for biomonitoring of hexamethylene diisocyanate exposure. Environmental Health Perspectives 2001, 109: 1103-1108. PMID: 11712993, PMCID: PMC1240469, DOI: 10.1289/ehp.011091103.Peer-Reviewed Original ResearchConceptsHexamethylene diisocyanateHuman serum albuminLaser desorption timeMatrix-assisted laser desorption timeFlight mass spectrometryWorkplace air monitoringMass spectrometryDesorption timeDiisocyanateAdductsDevelopment of immunoassaysHSA antigenSerum albuminMicrotiter platesReactionAir monitoringHexamethylene diisocyanate exposurePpbAbsence of reactionSensitive bioassayNumerous samplesSpectrometryDiphenylPolyurethaneCoatings
1998
More controversy, little clarification
Redlich C. More controversy, little clarification. The Lancet 1998, 352: s9. PMID: 9872156, DOI: 10.1016/s0140-6736(98)90271-9.Commentaries, Editorials and LettersVitamin A Inhibits Radiation-Induced Pneumonitis in Rats 1 , 2
Redlich C, Rockwell S, Chung J, Sikora A, Kelley M, Mayne S. Vitamin A Inhibits Radiation-Induced Pneumonitis in Rats 1 , 2. Journal Of Nutrition 1998, 128: 1661-1664. PMID: 9772133, DOI: 10.1093/jn/128.10.1661.Peer-Reviewed Original ResearchConceptsRadiation-induced lung injuryVitamin ALung injuryLung inflammationRadiation-induced lung inflammationLung retinol levelsSupplemental vitamin AAltered vitaminThoracic radiationThoracic radiotherapyBronchoalveolar lavagePrescribed dietRetinol levelsDeficient groupDeficient dietTotal doseY ratsRadioprotective agentsRats 1RatsWhole thoraxHost susceptibilityDietInflammationInjury
1996
IL-11 enhances survival and decreases TNF production after radiation-induced thoracic injury.
Redlich C, Gao X, Rockwell S, Kelley M, Elias J. IL-11 enhances survival and decreases TNF production after radiation-induced thoracic injury. The Journal Of Immunology 1996, 157: 1705-10. PMID: 8759759, DOI: 10.4049/jimmunol.157.4.1705.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBronchoalveolar Lavage FluidCell LineGene Expression RegulationGene Expression Regulation, NeoplasticInjections, SubcutaneousInterleukin-11Lung NeoplasmsMacrophages, AlveolarMiceMice, Inbred BALB CNeoplasm ProteinsNeoplastic Stem CellsRadiation Injuries, ExperimentalRecombinant ProteinsRNA, MessengerRNA, NeoplasmSpecific Pathogen-Free OrganismsThoracic InjuriesTumor Necrosis Factor-alphaConceptsThoracic irradiationThoracic injuriesControl miceTNF protein productionTNF productionVehicle-treated control miceNormal thoracic structuresPulmonary metastatic tumorsEMT6 tumor cellsTNF mRNA expressionDose of radiationLung metastasesInhibits LPSMetastatic tumorsNormal lungRadioprotective effectMRNA expressionIL-11Enhances SurvivalTumor cellsObserved protectionSignificant radioprotectionTNF mRNAThoracic structuresStudy interval
1990
Induction and developmental expression of cytochrome P450IA1 messenger RNA in rat and human tissues: detection by the polymerase chain reaction.
Omiecinski C, Redlich C, Costa P. Induction and developmental expression of cytochrome P450IA1 messenger RNA in rat and human tissues: detection by the polymerase chain reaction. Cancer Research 1990, 50: 4315-21. PMID: 1694720.Peer-Reviewed Original ResearchMeSH KeywordsAgingAnimalsBase SequenceBlotting, NorthernBlotting, SouthernCytochrome P-450 Enzyme SystemDNAGene Expression Regulation, EnzymologicGenesIsoenzymesLiverMethylcholanthreneMolecular Sequence DataOligonucleotide ProbesOrgan SpecificityPhenobarbitalPolymerase Chain ReactionRatsRats, Inbred StrainsReference ValuesRNARNA, MessengerConceptsPolymerase chain reactionHuman pulmonary alveolar macrophagesChain reactionP450IA1 mRNAEarly gestational stageEnvironmental chemical exposuresPulmonary alveolar macrophagesDevelopmental ageTransplacental treatmentFetal ratsHuman gestationGestational stagesRat lungAlveolar macrophagesDay 15Related cancersHuman tissue samplesIndividual susceptibilityDay 45Fetal liver developmentTarget cellsMRNA expression patternsRatsTissue samplesChemical exposure