2021
Long noncoding RNA TINCR is a novel regulator of human bronchial epithelial cell differentiation state
Omote N, Sakamoto K, Li Q, Schupp JC, Adams T, Ahangari F, Chioccioli M, DeIuliis G, Hashimoto N, Hasegawa Y, Kaminski N. Long noncoding RNA TINCR is a novel regulator of human bronchial epithelial cell differentiation state. Physiological Reports 2021, 9: e14727. PMID: 33527707, PMCID: PMC7851438, DOI: 10.14814/phy2.14727.Peer-Reviewed Original ResearchConceptsTerminal differentiation-induced lncRNANormal human bronchial epithelial cellsTINCR overexpressionCell differentiationNotch genesTissue developmentBronchial epithelial cellsExtracellular matrix organizationCell phenotypeRNA sequencing analysisNumerous biological functionsRole of lncRNAsCell differentiation stateEpithelial cellsHuman bronchial epithelial cellsCiliated cell differentiationStaufen1 proteinNovel regulatorBasal cell phenotypeDownstream regulatorsRNA immunoprecipitationBiological functionsCritical regulatorDifferential expressionDifferentiation state
2020
Expression of SARS-CoV-2 receptor ACE2 and coincident host response signature varies by asthma inflammatory phenotype
Camiolo M, Gauthier M, Kaminski N, Ray A, Wenzel SE. Expression of SARS-CoV-2 receptor ACE2 and coincident host response signature varies by asthma inflammatory phenotype. Journal Of Allergy And Clinical Immunology 2020, 146: 315-324.e7. PMID: 32531372, PMCID: PMC7283064, DOI: 10.1016/j.jaci.2020.05.051.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAngiotensin-Converting Enzyme 2AsthmaBetacoronavirusBiomarkersBronchiBronchoalveolar Lavage FluidCohort StudiesCoronavirus InfectionsCOVID-19EosinophilsFemaleGene Expression ProfilingHumansInterferon Type IInterferon-gammaMaleMiddle AgedPandemicsPeptidyl-Dipeptidase APneumonia, ViralProtein Interaction MappingReceptors, VirusRisk FactorsSARS-CoV-2Severity of Illness IndexT-LymphocytesTranscriptomeUnited StatesConceptsCoronavirus disease 2019Severe coronavirus disease 2019Subset of patientsDisease 2019Risk factorsBronchial epitheliumAcute respiratory syndrome coronavirus 2 infectionSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infectionSevere acute respiratory syndrome coronavirus 2Syndrome coronavirus 2 infectionType 2 inflammatory biomarkersAcute respiratory syndrome coronavirus 2Receptor ACE2SARS-CoV-2 receptor ACE2Respiratory syndrome coronavirus 2Asthma inflammatory phenotypesLarge asthma cohortsLower peripheral bloodT cell-activating factorCoronavirus 2 infectionEnzyme 2 (ACE2) expressionHistory of hypertensionDiagnosis of asthmaBronchoalveolar lavage lymphocytesT cell recruitment
2019
Elevated CO2 regulates the Wnt signaling pathway in mammals, Drosophila melanogaster and Caenorhabditis elegans
Shigemura M, Lecuona E, Angulo M, Dada LA, Edwards MB, Welch LC, Casalino-Matsuda SM, Sporn PHS, Vadász I, Helenius IT, Nader GA, Gruenbaum Y, Sharabi K, Cummins E, Taylor C, Bharat A, Gottardi CJ, Beitel GJ, Kaminski N, Budinger GRS, Berdnikovs S, Sznajder JI. Elevated CO2 regulates the Wnt signaling pathway in mammals, Drosophila melanogaster and Caenorhabditis elegans. Scientific Reports 2019, 9: 18251. PMID: 31796806, PMCID: PMC6890671, DOI: 10.1038/s41598-019-54683-0.Peer-Reviewed Original ResearchConceptsLarge-scale transcriptomic studyAvailable transcriptomic datasetsCell linesWnt pathway genesOrganismal functionDrosophila melanogasterElevated CO2Different tissue originsTranscriptomic studiesBronchial cell lineCO2 elevationTranscriptomic datasetsGenomic responsesHuman bronchial cell linePathway genesGene expressionDifferent tissuesGenesHigh CO2Tissue originMammalsSkeletal musclePathwayCaenorhabditisMelanogaster
2016
Expression of asthma susceptibility genes in bronchial epithelial cells and bronchial alveolar lavage in the Severe Asthma Research Program (SARP) cohort
Li X, Hawkins GA, Moore WC, Hastie AT, Ampleford EJ, Milosevic J, Li H, Busse WW, Erzurum SC, Kaminski N, Wenzel SE, Bleecker ER, Meyers DA. Expression of asthma susceptibility genes in bronchial epithelial cells and bronchial alveolar lavage in the Severe Asthma Research Program (SARP) cohort. Journal Of Asthma 2016, 53: 775-782. PMID: 27050946, PMCID: PMC5137190, DOI: 10.3109/02770903.2016.1158268.Peer-Reviewed Original Research
2014
Gene Expression in Relation to Exhaled Nitric Oxide Identifies Novel Asthma Phenotypes with Unique Biomolecular Pathways
Modena BD, Tedrow JR, Milosevic J, Bleecker ER, Meyers DA, Wu W, Bar-Joseph Z, Erzurum SC, Gaston BM, Busse WW, Jarjour NN, Kaminski N, Wenzel SE. Gene Expression in Relation to Exhaled Nitric Oxide Identifies Novel Asthma Phenotypes with Unique Biomolecular Pathways. American Journal Of Respiratory And Critical Care Medicine 2014, 190: 1363-1372. PMID: 25338189, PMCID: PMC4294630, DOI: 10.1164/rccm.201406-1099oc.Peer-Reviewed Original ResearchConceptsEpithelial cell gene expressionCell gene expressionGene expressionAirway epithelial cell gene expressionGene expression patternsSevere Asthma Research ProgramActin cytoskeletonGene clusterGenomic studiesGene transcriptionGene pathwaysMolecular basisExpression patternsAsthma phenotypesWnt pathwayMicroarray platformGenesNovel pathwayPhenotypeBiomolecular pathwaysNeuronal functionPathwayUnadjusted p-valuesExpressionBiological characteristics