2019
SH2 domain-containing Phosphatase-(SHP)-2 blunts fibrotic responses through regulation of fibroblast mitochondrial metabolism and autophagy
Tzouvelekis A, Yu G, Ahangari F, Bennett A, Karampitsakos T, Bouros D, Bouros E, Kaminski N. SH2 domain-containing Phosphatase-(SHP)-2 blunts fibrotic responses through regulation of fibroblast mitochondrial metabolism and autophagy. 2019, pa583. DOI: 10.1183/13993003.congress-2019.pa583.Peer-Reviewed Original Research
2013
Gene expression profiles reveal molecular mechanisms involved in the progression and resolution of bleomycin-induced lung fibrosis
Cabrera S, Selman M, Lonzano-Bolaños A, Konishi K, Richards TJ, Kaminski N, Pardo A. Gene expression profiles reveal molecular mechanisms involved in the progression and resolution of bleomycin-induced lung fibrosis. American Journal Of Physiology - Lung Cellular And Molecular Physiology 2013, 304: l593-l601. PMID: 23457188, PMCID: PMC4116413, DOI: 10.1152/ajplung.00320.2012.Peer-Reviewed Original ResearchConceptsLung fibrosisFibrotic responseResolution of bleomycinTranscriptional signatureGene expression profilesGene microarray analysisC57BL/6 miceProminent inflammationSingle doseExtracellular matrix-related genesInitial progressionControl animalsTIMP-1Normal architectureExpression profilesFibrosisMatrix metalloproteinasesHydroxyproline contentBleomycinMatrix-related genesSubsequent resolutionProgressionInflammationEqual volumeMicroarray analysis
2012
Matrix Metalloproteinase-19 Is a Key Regulator of Lung Fibrosis in Mice and Humans
Yu G, Kovkarova-Naumovski E, Jara P, Parwani A, Kass D, Ruiz V, Lopez-Otín C, Rosas IO, Gibson KF, Cabrera S, Ramírez R, Yousem SA, Richards TJ, Chensny LJ, Selman M, Kaminski N, Pardo A. Matrix Metalloproteinase-19 Is a Key Regulator of Lung Fibrosis in Mice and Humans. American Journal Of Respiratory And Critical Care Medicine 2012, 186: 752-762. PMID: 22859522, PMCID: PMC5450991, DOI: 10.1164/rccm.201202-0302oc.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBleomycinCells, CulturedCyclooxygenase 2Epithelial CellsGene Expression Regulation, EnzymologicHumansIdiopathic Pulmonary FibrosisLaser Capture MicrodissectionMatrix Metalloproteinases, SecretedMiceMice, KnockoutOligonucleotide Array Sequence AnalysisPulmonary AlveoliUp-RegulationConceptsIdiopathic pulmonary fibrosisHyperplastic epithelial cellsAlveolar epithelial cellsEpithelial cellsMMP-19IPF lungsWT miceLung fibrosisFibrotic responseHyperplastic alveolar epithelial cellsNovel mediatorLaser capture microscopeLung fibrotic responseDevelopment of fibrosisWild-type miceEpithelial phenotypic changesMatrix metalloproteinase-19Microarray analysisA549 epithelial cellsLung injuryBronchoalveolar lavagePulmonary fibrosisLung tissueSame lungFibrosis
2009
Increased local expression of coagulation factor X contributes to the fibrotic response in human and murine lung injury
Scotton CJ, Krupiczojc MA, Königshoff M, Mercer PF, Lee YC, Kaminski N, Morser J, Post JM, Maher TM, Nicholson AG, Moffatt JD, Laurent GJ, Derian CK, Eickelberg O, Chambers RC. Increased local expression of coagulation factor X contributes to the fibrotic response in human and murine lung injury. Journal Of Clinical Investigation 2009, 119: 2550-2563. PMID: 19652365, PMCID: PMC2735922, DOI: 10.1172/jci33288.Peer-Reviewed Original ResearchMeSH KeywordsActinsAdultAgedAnimalsBase SequenceBleomycinCase-Control StudiesCell DifferentiationCells, CulturedFactor XaFactor Xa InhibitorsFemaleFibroblastsGene ExpressionHumansIdiopathic Pulmonary FibrosisLung InjuryMaleMiceMice, Inbred C57BLMiddle AgedModels, BiologicalPulmonary FibrosisReceptor, PAR-1Receptors, VitronectinRNA, MessengerTransforming Growth Factor betaUp-RegulationConceptsProteinase-activated receptor 1Lung injuryPulmonary fibrosisFibrotic responseCoagulation cascade contributesExcessive procoagulant activityChronic lung diseaseIdiopathic pulmonary fibrosisMurine lung injuryDirect FXa inhibitorsFibrotic lung tissueHuman adult lungFactor XTGF-beta activationNovel pathogenetic mechanismLung biopsyMicrovascular leakFibrotic fociLung diseaseFibrosis developmentLung tissuePathogenetic mechanismsAlpha-SMATissue injuryAlveolar epithelium
2000
Global analysis of gene expression in pulmonary fibrosis reveals distinct programs regulating lung inflammation and fibrosis
Kaminski N, Allard J, Pittet J, Zuo F, Griffiths M, Morris D, Huang X, Sheppard D, Heller R. Global analysis of gene expression in pulmonary fibrosis reveals distinct programs regulating lung inflammation and fibrosis. Proceedings Of The National Academy Of Sciences Of The United States Of America 2000, 97: 1778-1783. PMID: 10677534, PMCID: PMC26512, DOI: 10.1073/pnas.97.4.1778.Peer-Reviewed Original ResearchConceptsPulmonary fibrosisLung inflammationBleomycin administrationSusceptible miceMultiple time pointsFibrotic responseFibrosisFibrotic diseasesInflammationMore effective strategiesGene expressionTime pointsMiceBeta6 subunitMolecular mechanismsSequential inductionGene expression patternsExpression patternsNull mutationResponseEffective strategyLungExpressionBleomycinGene expression programs