2017
Modified mesenchymal stem cells using miRNA transduction alter lung injury in a bleomycin model
Huleihel L, Sellares J, Cardenes N, Álvarez D, Faner R, Sakamoto K, Yu G, Kapetanaki MG, Kaminski N, Rojas M. Modified mesenchymal stem cells using miRNA transduction alter lung injury in a bleomycin model. American Journal Of Physiology - Lung Cellular And Molecular Physiology 2017, 313: l92-l103. PMID: 28385811, PMCID: PMC5538868, DOI: 10.1152/ajplung.00323.2016.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBiomarkersBleomycinBone Marrow CellsCollagenCytokinesDisease Models, AnimalFemaleGene Expression RegulationGene Regulatory NetworksHumansInterleukin-6Leukocyte Common AntigensLung InjuryMesenchymal Stem Cell TransplantationMesenchymal Stem CellsMice, Inbred C57BLMicroRNAsRNA, MessengerSurvival AnalysisTransduction, GeneticTransfectionWeight LossConceptsBone marrow-derived mesenchymal stem cellsMesenchymal stem cellsLung fibrosisLate administrationBleomycin modelMiR-154Different preclinical modelsStem cellsCD45-positive cellsMurine bleomycin modelMarrow-derived mesenchymal stem cellsInitial weight lossLower survival rateAshcroft scoreLung injuryBleomycin instillationFibrotic changesCytokine expressionMice groupsLung tissueOH-prolinePreclinical modelsProtective effectTreatment groupsSurvival rate
2014
Let-7d microRNA affects mesenchymal phenotypic properties of lung fibroblasts
Huleihel L, Ben-Yehudah A, Milosevic J, Yu G, Pandit K, Sakamoto K, Yousef H, LeJeune M, Coon TA, Redinger CJ, Chensny L, Manor E, Schatten G, Kaminski N. Let-7d microRNA affects mesenchymal phenotypic properties of lung fibroblasts. American Journal Of Physiology - Lung Cellular And Molecular Physiology 2014, 306: l534-l542. PMID: 24441869, PMCID: PMC3949080, DOI: 10.1152/ajplung.00149.2013.Peer-Reviewed Original ResearchMeSH KeywordsActinsCadherinsCalcium-Binding ProteinsCell MovementCell ProliferationCells, CulturedEpithelial-Mesenchymal TransitionFibroblastsFibronectinsHMGA2 ProteinHMGB2 ProteinHumansIdiopathic Pulmonary FibrosisKeratin-19LungMicroRNAsMyofibroblastsPulmonary AlveoliPulmonary FibrosisS100 Calcium-Binding Protein A4Snail Family Transcription FactorsTranscription FactorsTransfectionTransforming Growth Factor betaWound HealingZonula Occludens-1 ProteinConceptsLet-7dFibroblast-specific protein-1Mesenchymal marker αProtein 1Tight junction protein 1Smooth muscle actinMicroRNA Let-7dLung fibrosisProliferation of fibroblastsFibrotic processPrimary fibroblastsEffect of transfectionMuscle actinMesenchymal transitionLung fibroblastsFibroblast responsivenessMesenchymal propertiesKeratin 19Protein expressionEpithelial cellsWound healingN-cadherinProtein inductionReduced motilityTGF
2009
WNT5A Is a Regulator of Fibroblast Proliferation and Resistance to Apoptosis
Vuga LJ, Ben-Yehudah A, Kovkarova-Naumovski E, Oriss T, Gibson KF, Feghali-Bostwick C, Kaminski N. WNT5A Is a Regulator of Fibroblast Proliferation and Resistance to Apoptosis. American Journal Of Respiratory Cell And Molecular Biology 2009, 41: 583-589. PMID: 19251946, PMCID: PMC2778165, DOI: 10.1165/rcmb.2008-0201oc.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisBeta CateninBlotting, WesternCase-Control StudiesCaspase 3Cell LineCell ProliferationCell SurvivalFibroblastsFibronectinsGene Expression ProfilingHumansHydrogen PeroxideIdiopathic Pulmonary FibrosisIntegrin alpha5LungMiceOligonucleotide Array Sequence AnalysisProto-Oncogene ProteinsRecombinant ProteinsReverse Transcriptase Polymerase Chain ReactionRNA InterferenceTransfectionUp-RegulationWnt ProteinsWnt-5a ProteinConceptsUsual interstitial pneumoniaNormal lung fibroblastsLung tissueLung fibroblastsFibrotic interstitial lung diseaseInterstitial lung fibrosisSpecific histopathologic patternIdiopathic pulmonary fibrosisInterstitial lung diseaseRole of Wnt5aReal-time RT-PCRQuantitative real-time RT-PCRInterstitial pneumoniaPulmonary fibrosisAutoimmune diseasesHistopathologic patternLung diseaseLung fibrosisHistological patternNormal histologyWnt/beta-catenin pathwayCanonical Wnt/beta-catenin pathwayWestern blotFibroblast proliferationBeta-catenin pathway
2006
Caveolin-1: a critical regulator of lung fibrosis in idiopathic pulmonary fibrosis
Wang XM, Zhang Y, Kim HP, Zhou Z, Feghali-Bostwick CA, Liu F, Ifedigbo E, Xu X, Oury TD, Kaminski N, Choi AM. Caveolin-1: a critical regulator of lung fibrosis in idiopathic pulmonary fibrosis. Journal Of Experimental Medicine 2006, 203: 2895-2906. PMID: 17178917, PMCID: PMC1850940, DOI: 10.1084/jem.20061536.Peer-Reviewed Original ResearchMeSH KeywordsActinsAnimalsBleomycinCaveolin 1Collagen Type IEpithelial CellsExtracellular MatrixFibroblastsFibronectinsFibrosisGene ExpressionHumansHydroxyprolineJNK Mitogen-Activated Protein KinasesLungMiceMice, Inbred C57BLMice, KnockoutMitogen-Activated Protein Kinase 8PhosphorylationPulmonary FibrosisRNA, Small InterferingSmad2 ProteinTransfectionTransforming Growth Factor beta1ConceptsIdiopathic pulmonary fibrosisPulmonary fibrosisCav-1 expressionCav-1Pulmonary fibroblastsPrimary pulmonary fibroblastsNovel therapeutic targetProgressive chronic disorderLung tissue samplesActivation of fibroblastsGrowth factor beta1Smad signaling cascadesHuman pulmonary fibroblastsC-Jun N-terminal kinase (JNK) pathwayIPF patientsLung fibrosisProfibrotic cytokinesChronic disordersN-terminal kinase pathwayLung tissueTherapeutic targetFibrosisHydroxyproline contentHistological analysisMarked reduction