2024
Dedifferentiated early postnatal lung myofibroblasts redifferentiate in adult disease
Chandran R, Adams T, Kabir I, Gallardo-Vara E, Kaminski N, Gomperts B, Greif D. Dedifferentiated early postnatal lung myofibroblasts redifferentiate in adult disease. Frontiers In Cell And Developmental Biology 2024, 12: 1335061. PMID: 38572485, PMCID: PMC10987733, DOI: 10.3389/fcell.2024.1335061.Peer-Reviewed Original ResearchRNA sequencing analysisSMA+ myofibroblastsGene expression profilesLung myofibroblastsAdult lungSequence analysisResponse to lung injurySingle cell RNA sequencing analysisTissue remodeling genesSmooth muscle cell markersLung to hypoxiaExpression profilesRemodeling genesMuscle cell markersResponse to injuryCell typesSMA cellsLineage tracingLung injuryCell markersLineagesGenesAdult diseaseDrug bleomycinLung surface area
2019
BAL Cell Gene Expression in Severe Asthma Reveals Mechanisms of Severe Disease and Influences of Medications
Weathington N, O’Brien M, Radder J, Whisenant TC, Bleecker ER, Busse WW, Erzurum SC, Gaston B, Hastie A, Jarjour N, Meyers D, Milosevic J, Moore W, Tedrow J, Trudeau J, Wong H, Wu W, Kaminski N, Wenzel S, Modena B. BAL Cell Gene Expression in Severe Asthma Reveals Mechanisms of Severe Disease and Influences of Medications. American Journal Of Respiratory And Critical Care Medicine 2019, 200: 837-856. PMID: 31161938, PMCID: PMC6812436, DOI: 10.1164/rccm.201811-2221oc.Peer-Reviewed Original ResearchMeSH KeywordsAdrenergic beta-AgonistsAdultAsthmaBronchoalveolar Lavage FluidCase-Control StudiesCyclic AMPEosinophilsEpithelial CellsFemaleGene ExpressionHumansIn Vitro TechniquesLymphocytesMacrophages, AlveolarMaleNeutrophilsSequence Analysis, RNASeverity of Illness IndexSignal TransductionTHP-1 CellsConceptsCell gene expressionGene expressionAirway epithelial cell gene expressionEpithelial cell gene expressionGlobal gene expressionCellular gene expressionCell expression profilesAsthma susceptibility lociProtein levelsSystem-wide analysisExpression networksImportant disease mechanismCoexpression networkCellular milieuExpression changesExpression profilesSusceptibility lociCellular modelDisease mechanismsBiomolecular mechanismsNew targetsRobust upregulationSample traitsGenesExpression
2018
Spatial distribution of marker gene activity in the mouse lung during alveolarization
Ljungberg MC, Sadi M, Wang Y, Aronow BJ, Xu Y, Kao RJ, Liu Y, Gaddis N, Ardini-Poleske ME, Umrod T, Ambalavanan N, Nicola T, Kaminski N, Ahangari F, Sontag R, Corley RA, Ansong C, Carson JP. Spatial distribution of marker gene activity in the mouse lung during alveolarization. Data In Brief 2018, 22: 365-372. PMID: 30596133, PMCID: PMC6307338, DOI: 10.1016/j.dib.2018.10.150.Peer-Reviewed Original ResearchRNA-seq expression profilesMarker gene activityGene expression patternsLung developmentLung Development ProgramGene activityRNA-seqMolecular atlasCellular differentiationDifferent genesExpression patternsExpression profilesNormal lung developmentMouse lungMRNA transcriptsMammalian lungMRNA probesProbe sequencesAbnormal lung developmentCurated CollectionGenesSpatial distributionTranscriptsE16.5E18.5
2014
Pneumocystis jirovecii colonization is associated with enhanced Th1 inflammatory gene expression in lungs of humans with chronic obstructive pulmonary disease
Fitzpatrick ME, Tedrow JR, Hillenbrand ME, Lucht L, Richards T, Norris KA, Zhang Y, Sciurba FC, Kaminski N, Morris A. Pneumocystis jirovecii colonization is associated with enhanced Th1 inflammatory gene expression in lungs of humans with chronic obstructive pulmonary disease. Microbiology And Immunology 2014, 58: 202-211. PMID: 24438206, PMCID: PMC4106795, DOI: 10.1111/1348-0421.12135.Peer-Reviewed Original ResearchConceptsChronic obstructive pulmonary diseaseObstructive pulmonary diseaseLung Tissue Research ConsortiumPneumocystis colonizationPulmonary diseaseCOPD pathogenesisLung gene expression profilesChemokine ligands CXCL9Cognate receptor CXCR3Finding of upregulationLungs of humansInflammatory gene expressionLung tissue samplesPotential key pathwaysGene expression profilesPneumocystis jirovecii colonizationReceptor CXCR3Ligands CXCL9Lymphocyte traffickingT lymphocytesInflammatory genesPneumocystis jiroveciiDisease pathogenesisExpression profilesLigand expression
2013
Expression of Regulatory Platelet MicroRNAs in Patients with Sickle Cell Disease
Jain S, Kapetanaki MG, Raghavachari N, Woodhouse K, Yu G, Barge S, Coronnello C, Benos PV, Kato GJ, Kaminski N, Gladwin MT. Expression of Regulatory Platelet MicroRNAs in Patients with Sickle Cell Disease. PLOS ONE 2013, 8: e60932. PMID: 23593351, PMCID: PMC3625199, DOI: 10.1371/journal.pone.0060932.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAnemia, Sickle CellBlood PlateletsCell LineChromosomes, Human, Pair 14Computational BiologyDown-RegulationFemaleGene Expression ProfilingGene Expression RegulationGenomic ImprintingHumansHydroxyureaMaleMegakaryocytesMicroRNAsMiddle AgedMolecular Sequence AnnotationOligonucleotide Array Sequence AnalysisReproducibility of ResultsTricuspid Valve InsufficiencyUp-RegulationYoung AdultConceptsMiRNA expression profilesExpression profilesMRNA targetsSignificant transcriptional repressionPlatelet miRNAsPost-transcriptional regulationMiRNA target sequencesComputational prediction analysisAltered miRNA expression profilesMRNA expression profilesExpression of miRNAsAgilent miRNA microarrayTranscriptional repressionPlatelet transcriptomeBiological pathwaysDownregulated miRNAsMiRNAsPlatelet transcriptsMiRNA microarrayPlatelet microRNAsTarget sequenceMiR-376aMiR-376QRT-PCRMiR-154Gene 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
2011
MRNA And MicroRNA Expression Profiles Indicate Disease Severity In Patients With Idiopathic Pulmonary Fibrosis
Juan-Guardela B, Tedrow J, Herazo J, Aboud C, Pandit K, Chensny L, Gur D, Leader J, Benos P, Richards T, Correll M, Quackenbush J, Geraci M, Spira A, Schwartz D, Sciurba F, Kaminski N. MRNA And MicroRNA Expression Profiles Indicate Disease Severity In Patients With Idiopathic Pulmonary Fibrosis. 2011, a6005-a6005. DOI: 10.1164/ajrccm-conference.2011.183.1_meetingabstracts.a6005.Peer-Reviewed Original Research
2010
Gene Expression Profiles Of Pulmonary Fibrosis Reveal Developmental Functions As Determinants That Distinguish NSIP And UIP In Interstitial Pneumonias
Konishi K, Richards T, Song J, Chensny L, Lindell K, Herazo J, Zhang Y, Gibson K, Kaminski N, Kim D. Gene Expression Profiles Of Pulmonary Fibrosis Reveal Developmental Functions As Determinants That Distinguish NSIP And UIP In Interstitial Pneumonias. 2010, a2492-a2492. DOI: 10.1164/ajrccm-conference.2010.181.1_meetingabstracts.a2492.Peer-Reviewed Original Research
2008
Molecular Staging of Epithelial Maturation Using Secretory Cell–Specific Genes as Markers
Zemke AC, Snyder JC, Brockway BL, Drake JA, Reynolds SD, Kaminski N, Stripp BR. Molecular Staging of Epithelial Maturation Using Secretory Cell–Specific Genes as Markers. American Journal Of Respiratory Cell And Molecular Biology 2008, 40: 340-348. PMID: 18757308, PMCID: PMC2645532, DOI: 10.1165/rcmb.2007-0380oc.Peer-Reviewed Original ResearchConceptsCell-specific genesCategories of genesUnique gene expression profileDevelopmental expression patternsSecretory cellsGene expression profilesCell marker genesExpression of FMO3Messenger RNA abundanceUnique developmental expression patternTransgenic approachesClara cell markerRNA abundanceMarker genesClara cellsExpression patternsExpression profilesMolecular markersEpithelial maturationPhenotypic changesFlavin monooxygenase 3GenesTemporal inductionBronchiolar Clara cellsEmbryonic day
2007
Pedigreed Primate Embryonic Stem Cells Express Homogeneous Familial Gene Profiles
Navara CS, Mich‐Basso J, Redinger CJ, Ben‐Yehudah A, Jacoby E, Kovkarova‐Naumovski E, Sukhwani M, Orwig K, Kaminski N, Castro CA, Simerly CR, Schatten G. Pedigreed Primate Embryonic Stem Cells Express Homogeneous Familial Gene Profiles. Stem Cells 2007, 25: 2695-2704. PMID: 17641389, PMCID: PMC4357318, DOI: 10.1634/stemcells.2007-0286.Peer-Reviewed Original ResearchConceptsHuman embryonic stem cellsEmbryonic stem cellsPrimate ESCsPrimate embryonic stem cellsExpression profilesStem cellsHeterogeneous gene expression profilesReliable expression profilesStable diploid karyotypeGene expression profilesMouse ESCsRhesus embryosHESC linesBiological limitationsPluripotency markersDiploid karyotypeGene profilesAnonymous originsBiomedical promiseBiological similaritiesESCHalf siblingsDisparate originsFull siblingsMouse strainsA Patient-Gene Model for Temporal Expression Profiles in Clinical Studies
Kaminski N, Bar-Joseph Z. A Patient-Gene Model for Temporal Expression Profiles in Clinical Studies. Journal Of Computational Biology 2007, 14: 324-338. PMID: 17563314, DOI: 10.1089/cmb.2007.0001.Peer-Reviewed Original ResearchConceptsClinical studiesResponse ratePatient expression dataDisease progressionPatient levelPatient responseExpression profilesResponse patternsBaseline expressionPatient dataCommon response patternExpression levelsPatientsCell linesSpecific response patternsTemporal expression levelsLab animalsExpression patternsGene levelSpecific expression patternsImportant pathwayLevelsTemporal expression profiles331: Gene expression profiles in peripheral blood for the noninvasive diagnosis of chronic lung allograft rejection
Studer S, Richards T, Wu W, McCurry K, Kaminski N. 331: Gene expression profiles in peripheral blood for the noninvasive diagnosis of chronic lung allograft rejection. The Journal Of Heart And Lung Transplantation 2007, 26: s179. DOI: 10.1016/j.healun.2006.11.351.Peer-Reviewed Original Research
2006
A Patient-Gene Model for Temporal Expression Profiles in Clinical Studies
Kaminski N, Bar-Joseph Z. A Patient-Gene Model for Temporal Expression Profiles in Clinical Studies. Lecture Notes In Computer Science 2006, 3909: 69-82. DOI: 10.1007/11732990_6.Peer-Reviewed Original ResearchClinical studiesResponse ratePatient expression dataDisease progressionPatient levelPatient responseResponse patternsExpression profilesBaseline expressionPatient dataCommon response patternExpression levelsPatientsCell linesSpecific response patternsTemporal expression levelsLab animalsExpression patternsGene levelSpecific expression patternsImportant pathwayLevelsInterferonTemporal expression profiles
2002
Engraftment and differentiation of human metanephroi into functional mature nephrons after transplantation into mice is accompanied by a profile of gene expression similar to normal human kidney development.
Dekel B, Amariglio N, Kaminski N, Schwartz A, Goshen E, Arditti FD, Tsarfaty I, Passwell JH, Reisner Y, Rechavi G. Engraftment and differentiation of human metanephroi into functional mature nephrons after transplantation into mice is accompanied by a profile of gene expression similar to normal human kidney development. Journal Of The American Society Of Nephrology 2002, 13: 977-990. PMID: 11912257, DOI: 10.1681/asn.v134977.Peer-Reviewed Original ResearchConceptsHuman kidney developmentKidney developmentNormal human kidney developmentSpecific genesGene expressionGlobal gene expression patternsGlobal gene expressionMature nephronsGene expression patternsCell cycle regulatorsExtracellular matrix moleculesResult of hybridizationMolecular regulationCDNA arraysEmbryonic precursorsExpression patternsCycle regulatorsExpression profilesGenesMatrix moleculesExpression levelsAdult kidneyGrowth factorMetanephroiDevelopment of strategies
2001
DNA microarray analysis of genes involved in p53 mediated apoptosis: activation of Apaf-1
Kannan K, Kaminski N, Rechavi G, Jakob-Hirsch J, Amariglio N, Givol D. DNA microarray analysis of genes involved in p53 mediated apoptosis: activation of Apaf-1. Oncogene 2001, 20: 3449-3455. PMID: 11423996, DOI: 10.1038/sj.onc.1204446.Peer-Reviewed Original ResearchMeSH KeywordsApoptosisApoptotic Protease-Activating Factor 1Gene Expression ProfilingGene Expression Regulation, LeukemicGenesGenes, p53HumansLeukemia, MyeloidNeoplasm ProteinsOligonucleotide Array Sequence AnalysisProteinsRNA, MessengerRNA, NeoplasmTemperatureTranscription, GeneticTumor Cells, CulturedTumor Suppressor Protein p53ConceptsGene expression profilesGrowth arrestApaf-1Expression profilesMouse myeloid leukemic cell lineRegulated gene expression profilesP53-regulated genesDistinct transcriptional programsDNA microarray analysisCell linesTranscriptional programsCellular functionsSUMO-1Myeloid leukemic cell linesTemperature-sensitive p53MRNA speciesOligonucleotide microarraysProapoptotic genesMicroarray analysisLeukemic cell linesApoptotic processCellular responsesGenesP53 signalingStress conditions