2023
IFN-γ Is Protective in Cytokine Release Syndrome-associated Extrapulmonary Acute Lung Injury.
Sun Y, Hu B, Stanley G, Harris ZM, Gautam S, Homer R, Koff JL, Rajagopalan G. IFN-γ Is Protective in Cytokine Release Syndrome-associated Extrapulmonary Acute Lung Injury. American Journal Of Respiratory Cell And Molecular Biology 2023, 68: 75-89. PMID: 36125351, PMCID: PMC9817908, DOI: 10.1165/rcmb.2022-0117oc.Peer-Reviewed Original ResearchConceptsCytokine release syndromeAcute lung injuryExtrapulmonary acute lung injuryIFN-γ KO miceIL-17ALung injuryKO miceStaphylococcal enterotoxin BRelease syndromeIL-17A KO miceSevere acute lung injuryAcute respiratory distress syndromeSystemic T cell activationEnterotoxin BAdaptive T lymphocytesDR3 transgenic miceNeutralization of IFNRespiratory distress syndromeHuman leukocyte antigenRole of IFNT cell cytokinesJanus kinase inhibitorS100A8/A9T cell activationALI parameters
2017
Lung Endothelial MicroRNA-1 Regulates Tumor Growth and Angiogenesis
Korde A, Jin L, Zhang JG, Ramaswamy A, Hu B, Kolahian S, Guardela BJ, Herazo-Maya J, Siegfried JM, Stabile L, Pisani MA, Herbst RS, Kaminski N, Elias JA, Puchalski JT, Takyar SS. Lung Endothelial MicroRNA-1 Regulates Tumor Growth and Angiogenesis. American Journal Of Respiratory And Critical Care Medicine 2017, 196: 1443-1455. PMID: 28853613, PMCID: PMC5736970, DOI: 10.1164/rccm.201610-2157oc.Peer-Reviewed Original ResearchConceptsNon-small cell lung cancerMiR-1 levelsLewis lung carcinoma xenograftsLung carcinoma xenograftsTransgenic miceEndothelial cellsNSCLC tumorsCarcinoma xenograftsLung endotheliumMiR-1Tumor growthTumor progressionVascular endothelial cadherin promoterMicroRNA-1Cohort of patientsTumor-bearing lungsCell lung cancerVascular endothelial growth factorCancer-free tissuesEndothelial growth factorInducible transgenic miceMiR-1 overexpressionKP miceOverall survivalTumor burden
2016
Plexin C1 deficiency permits synaptotagmin 7–mediated macrophage migration and enhances mammalian lung fibrosis
Peng X, Moore M, Mathur A, Zhou Y, Sun H, Gan Y, Herazo‐Maya J, Kaminski N, Hu X, Pan H, Ryu C, Osafo‐Addo A, Homer RJ, Feghali‐Bostwick C, Fares W, Gulati M, Hu B, Lee C, Elias JA, Herzog EL. Plexin C1 deficiency permits synaptotagmin 7–mediated macrophage migration and enhances mammalian lung fibrosis. The FASEB Journal 2016, 30: 4056-4070. PMID: 27609773, PMCID: PMC5102121, DOI: 10.1096/fj.201600373r.Peer-Reviewed Original ResearchConceptsLung fibrosisPlexin C1Macrophage migrationPulmonary fibrosisBone marrow-derived cellsSynaptotagmin-7Idiopathic pulmonary fibrosisInterstitial lung diseaseMarrow-derived cellsTGF-β1 overexpressionFatal conditionLung diseaseMonocyte migrationUnrecognized observationCollagen accumulationFibrosisMice showBoyden chamberGenetic deletionLungMouse macrophagesSemaphorin receptorsMacrophagesC1s deficiencyDeficiency
2014
Chitinase 3–Like 1 Suppresses Injury and Promotes Fibroproliferative Responses in Mammalian Lung Fibrosis
Zhou Y, Peng H, Sun H, Peng X, Tang C, Gan Y, Chen X, Mathur A, Hu B, Slade MD, Montgomery RR, Shaw AC, Homer RJ, White ES, Lee CM, Moore MW, Gulati M, Lee CG, Elias JA, Herzog EL. Chitinase 3–Like 1 Suppresses Injury and Promotes Fibroproliferative Responses in Mammalian Lung Fibrosis. Science Translational Medicine 2014, 6: 240ra76. PMID: 24920662, PMCID: PMC4340473, DOI: 10.1126/scitranslmed.3007096.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisCHI3L1 levelsChitinase 3Lungs of patientsAlternative macrophage activationLevel of apoptosisAcute exacerbationFibroproliferative repairLung transplantationDisease exacerbationInjury phaseAmbulatory patientsEpithelial injuryPulmonary fibrosisIPF populationLung fibrosisMacrophage accumulationCHI3L1 expressionFibrotic phaseDisease progressionProfibrotic roleFibroproliferative responseMacrophage activationMyofibroblast transformationProtective role
2007
Lung‐specific nuclear reprogramming is accompanied by heterokaryon formation and Y chromosome loss following bone marrow transplantation and secondary inflammation
Herzog EL, Van Arnam J, Hu B, Zhang J, Chen Q, Haberman AM, Krause DS. Lung‐specific nuclear reprogramming is accompanied by heterokaryon formation and Y chromosome loss following bone marrow transplantation and secondary inflammation. The FASEB Journal 2007, 21: 2592-2601. PMID: 17449722, DOI: 10.1096/fj.06-7861com.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBone Marrow TransplantationChromosome DeletionFemaleInflammationIntercellular Signaling Peptides and ProteinsMaleMiceMice, KnockoutPeptidesPostoperative ComplicationsPulmonary Surfactant-Associated Protein CTransplantation ChimeraTransplantation ConditioningWhole-Body IrradiationY ChromosomeConceptsTransplanted bone marrow-derived cellsY chromosomeHeterokaryon formationBone marrow-derived cellsLung-specific gene expressionGene expression patternsSurfactant protein CY chromosome lossNuclear reprogrammingSP-C mRNAChromosome lossExpression patternsGene expressionCell fusionSP-C deficiencyChromosomesReprogrammingSpNonhematopoietic cellsWild-type marrowMarrow-derived cellsCellsProtein CProteinFusion