2022
Bronchial epithelium epithelial-mesenchymal plasticity forms aberrant basaloid-like cells in vitro
Uthaya Kumar DB, Motakis E, Yurieva M, Kohar V, Martinek J, Wu TC, Khoury J, Grassmann J, Lu M, Palucka K, Kaminski N, Koff JL, Williams A. Bronchial epithelium epithelial-mesenchymal plasticity forms aberrant basaloid-like cells in vitro. American Journal Of Physiology - Lung Cellular And Molecular Physiology 2022, 322: l822-l841. PMID: 35438006, PMCID: PMC9142163, DOI: 10.1152/ajplung.00254.2021.Peer-Reviewed Original ResearchConceptsProtein codingEpithelial-mesenchymal transitionLncRNA genesEMT inductionSingle-cell RNA sequencingSingle-cell RNA-seq dataEpithelial-mesenchymal plasticityRNA-seq dataMechanisms of EMTSingle-cell levelEpithelial cell typesRole of EMTTranscriptional reprogrammingHuman bronchial epithelial cellsRNA genesEMT gene signatureTranscriptional changesTranscriptional differencesRNA sequencingSpecific lncRNAsBronchial epithelial cellsDifferential expressionMyofibroblast conversionCell typesGenes
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
Genetic analyses identify GSDMB associated with asthma severity, exacerbations, and antiviral pathways
Li X, Christenson SA, Modena B, Li H, Busse WW, Castro M, Denlinger LC, Erzurum SC, Fahy JV, Gaston B, Hastie AT, Israel E, Jarjour NN, Levy BD, Moore WC, Woodruff PG, Kaminski N, Wenzel SE, Bleecker ER, Meyers DA, Program N. Genetic analyses identify GSDMB associated with asthma severity, exacerbations, and antiviral pathways. Journal Of Allergy And Clinical Immunology 2020, 147: 894-909. PMID: 32795586, PMCID: PMC7876167, DOI: 10.1016/j.jaci.2020.07.030.Peer-Reviewed Original ResearchConceptsExpression quantitative trait loci (eQTL) analysisQuantitative trait locus (QTL) analysisSingle nucleotide polymorphismsGasdermin BMultiple single nucleotide polymorphismsFunctional genesExpression levelsLocus analysisAntiviral pathwaysGenes/single-nucleotide polymorphismsWhole genome sequencesGene expression dataEpithelial cellsImmune system pathwaysHigh expression levelsHuman bronchial epithelial cellsIFN regulatory factorGPI attachmentGSDMB expressionAsthma susceptibilityGenetic analysisGene expressionPathway analysisBronchial epithelial cellsRegulatory factors