Featured Publications
A lung targeted miR-29 mimic as a therapy for pulmonary fibrosis
Chioccioli M, Roy S, Newell R, Pestano L, Dickinson B, Rigby K, Herazo-Maya J, Jenkins G, Ian S, Saini G, Johnson SR, Braybrooke R, Yu G, Sauler M, Ahangari F, Ding S, DeIuliis J, Aurelien N, Montgomery RL, Kaminski N. A lung targeted miR-29 mimic as a therapy for pulmonary fibrosis. EBioMedicine 2022, 85: 104304. PMID: 36265417, PMCID: PMC9587275, DOI: 10.1016/j.ebiom.2022.104304.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisNon-human primatesPulmonary fibrosisAnimal modelsPro-fibrotic genesAnti-fibrotic efficacyMiR-29 mimicsHuman peripheral bloodMiR-29b levelsHuman lung fibroblastsIPF patientsIPF diagnosisPeripheral bloodReduced fibrosisAdverse findingsPotential therapyLung slicesTGF-β1Relevant dosesLung fibroblastsNIH-NHLBIFibrosisTherapyCollagen productionProfibrotic gene programThyroid hormone inhibits lung fibrosis in mice by improving epithelial mitochondrial function
Yu G, Tzouvelekis A, Wang R, Herazo-Maya JD, Ibarra GH, Srivastava A, de Castro JPW, DeIuliis G, Ahangari F, Woolard T, Aurelien N, Arrojo e Drigo R, Gan Y, Graham M, Liu X, Homer RJ, Scanlan TS, Mannam P, Lee PJ, Herzog EL, Bianco AC, Kaminski N. Thyroid hormone inhibits lung fibrosis in mice by improving epithelial mitochondrial function. Nature Medicine 2017, 24: 39-49. PMID: 29200204, PMCID: PMC5760280, DOI: 10.1038/nm.4447.Peer-Reviewed Original ResearchConceptsThyroid hormonesMitochondrial functionPulmonary fibrosisLung fibrosisLung epitheliumFibrosisMiceHormoneEpitheliummicroRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis
Ahangari F, Price N, Malik S, Chioccioli M, Bärnthaler T, Adams T, Kim J, Pradeep S, Ding S, Cosme C, Rose K, McDonough J, Aurelien N, Ibarra G, Omote N, Schupp J, DeIuliis G, Nunez J, Sharma L, Ryu C, Dela Cruz C, Liu X, Prasse A, Rosas I, Bahal R, Fernandez-Hernando C, Kaminski N. microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis. JCI Insight 2023, 8: e158100. PMID: 36626225, PMCID: PMC9977502, DOI: 10.1172/jci.insight.158100.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisPulmonary fibrosisMiR-33MiR-33 levelsSpecific genetic ablationBronchoalveolar lavage cellsNovel therapeutic approachesMitochondrial homeostasisFatty acid metabolismMacrophages protectsBleomycin injuryLavage cellsLung fibrosisHealthy controlsInflammatory responseTherapeutic approachesImmunometabolic responsesCholesterol effluxFibrosisFatal diseasePharmacological inhibitionSterol regulatory element-binding protein (SREBP) genesGenetic ablationMacrophagesEx vivo mouseSingle-cell RNA-seq reveals ectopic and aberrant lung-resident cell populations in idiopathic pulmonary fibrosis
Adams TS, Schupp JC, Poli S, Ayaub EA, Neumark N, Ahangari F, Chu SG, Raby BA, DeIuliis G, Januszyk M, Duan Q, Arnett HA, Siddiqui A, Washko GR, Homer R, Yan X, Rosas IO, Kaminski N. Single-cell RNA-seq reveals ectopic and aberrant lung-resident cell populations in idiopathic pulmonary fibrosis. Science Advances 2020, 6: eaba1983. PMID: 32832599, PMCID: PMC7439502, DOI: 10.1126/sciadv.aba1983.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisVascular endothelial cellsIPF lungsPulmonary fibrosisChronic obstructive pulmonary disease (COPD) lungsFatal interstitial lung diseaseEndothelial cellsInterstitial lung diseaseCell populationsIPF myofibroblastsMyofibroblast fociNonsmoker controlsLung diseaseCOPD lungsBasaloid cellsSingle-cell atlasInvasive fibroblastsMacrophage populationsLungStromal cellsEpithelial cellsFibrosisCellular populationsDevelopmental markersSingle-cell RNA-seqSingle-Cell Analysis Reveals Novel Immune Perturbations in Fibrotic Hypersensitivity Pneumonitis.
Zhao A, Unterman A, Abu Hussein N, Sharma P, Nikola F, Flint J, Yan X, Adams T, Justet A, Sumida T, Zhao J, Schupp J, Raredon M, Ahangari F, Deluliis G, Zhang Y, Buendia-Roldan I, Adegunsoye A, Sperling A, Prasse A, Ryu C, Herzog E, Selman M, Pardo A, Kaminski N. Single-Cell Analysis Reveals Novel Immune Perturbations in Fibrotic Hypersensitivity Pneumonitis. American Journal Of Respiratory And Critical Care Medicine 2024, 210: 1252-1266. PMID: 38924775, PMCID: PMC11568434, DOI: 10.1164/rccm.202401-0078oc.Peer-Reviewed Original ResearchFibrotic hypersensitivity pneumonitisIdiopathic pulmonary fibrosisPeripheral blood mononuclear cellsBronchoalveolar lavage cellsBlood mononuclear cellsClassical monocytesHypersensitivity pneumonitisPulmonary fibrosisT cellsImmune perturbationsLavage cellsMononuclear cellsCD8+ T cellsCytotoxic T cellsInterstitial lung diseaseHypersensitivity pneumonitis patientsCytotoxic CD4Immune aberrationsPneumonic patientsPneumonitisLung diseaseHealthy controlsImmune mechanismsPatient cellsSingle-cell transcriptomicsGene expression analysis reveals matrilysin as a key regulator of pulmonary fibrosis in mice and humans
Zuo F, Kaminski N, Eugui E, Allard J, Yakhini Z, Ben-Dor A, Lollini L, Morris D, Kim Y, DeLustro B, Sheppard D, Pardo A, Selman M, Heller RA. Gene expression analysis reveals matrilysin as a key regulator of pulmonary fibrosis in mice and humans. Proceedings Of The National Academy Of Sciences Of The United States Of America 2002, 99: 6292-6297. PMID: 11983918, PMCID: PMC122942, DOI: 10.1073/pnas.092134099.Peer-Reviewed Original ResearchConceptsPulmonary fibrosisFibrotic lungsHuman pulmonary fibrosisPotential therapeutic targetGene expression analysisClinical diseaseSmooth muscleKnockout miceTherapeutic targetFibrosisHuman tissue samplesUntreatable groupLungTissue samplesMolecular pathwaysGlobal gene expression analysisExtracellular matrix formationMiceExpression analysisMatrilysinMolecular mechanismsKey regulatorGene expression patternsExpression patternsOligonucleotide microarraysMMP1 and MMP7 as Potential Peripheral Blood Biomarkers in Idiopathic Pulmonary Fibrosis
Rosas IO, Richards TJ, Konishi K, Zhang Y, Gibson K, Lokshin AE, Lindell KO, Cisneros J, MacDonald SD, Pardo A, Sciurba F, Dauber J, Selman M, Gochuico BR, Kaminski N. MMP1 and MMP7 as Potential Peripheral Blood Biomarkers in Idiopathic Pulmonary Fibrosis. PLOS Medicine 2008, 5: e93. PMID: 18447576, PMCID: PMC2346504, DOI: 10.1371/journal.pmed.0050093.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisInterstitial lung diseaseSubclinical interstitial lung diseasePulmonary fibrosisLung diseaseIPF patientsChronic progressive fibrotic lung diseaseControl individualsAsymptomatic interstitial lung diseaseProgressive fibrotic lung diseaseChronic obstructive pulmonary diseasePotential peripheral blood biomarkerChronic hypersensitivity pneumonitisPeripheral blood biomarkersChronic lung diseaseObstructive pulmonary diseaseFibrotic lung diseaseBronchoalveolar lavage fluidIndependent validation cohortFamilial pulmonary fibrosisProtein signaturesPulmonary diseaseSubstantial morbidityHypersensitivity pneumonitisLavage fluidInhibition and Role of let-7d in Idiopathic Pulmonary Fibrosis
Pandit KV, Corcoran D, Yousef H, Yarlagadda M, Tzouvelekis A, Gibson KF, Konishi K, Yousem SA, Singh M, Handley D, Richards T, Selman M, Watkins SC, Pardo A, Ben-Yehudah A, Bouros D, Eickelberg O, Ray P, Benos PV, Kaminski N. Inhibition and Role of let-7d in Idiopathic Pulmonary Fibrosis. American Journal Of Respiratory And Critical Care Medicine 2010, 182: 220-229. PMID: 20395557, PMCID: PMC2913236, DOI: 10.1164/rccm.200911-1698oc.Peer-Reviewed Original ResearchMeSH KeywordsActinsAnimalsCadherinsCells, CulturedDown-RegulationEpithelial CellsHMGA2 ProteinHumansIdiopathic Pulmonary FibrosisIn Situ HybridizationLungMiceMice, Inbred C57BLMicroRNAsPolymerase Chain ReactionPulmonary AlveoliS100 Calcium-Binding Protein A4S100 ProteinsSmad3 ProteinTransforming Growth Factor betaVimentinConceptsIdiopathic pulmonary fibrosisReal-time polymerase chain reactionQuantitative real-time polymerase chain reactionAlveolar epithelial cellsIPF lungsPulmonary fibrosisPolymerase chain reactionLet-7dEpithelial cellsLethal fibrotic lung diseaseAlpha-smooth muscle actinAlveolar septal thickeningMesenchymal markers N-cadherinFibrotic lung diseaseChain reactionLet-7d expressionSeptal thickeningPulmonary functionLung diseaseLung fibrosisEpithelial cell lineIntratracheal administrationIPF tissueProfibrotic effectsClinical trials
2024
Toll-like Receptor 9 Inhibition Mitigates Fibroproliferative Responses in Translational Models of Pulmonary Fibrosis.
Trujillo G, Regueiro-Ren A, Liu C, Hu B, Sun Y, Ahangari F, Fiorini V, Ishikawa G, Al Jumaily K, Khoury J, McGovern J, Lee C, Peng X, Pivarnik T, Sun H, Walia A, Woo S, Yu S, Antin-Ozerkis D, Sauler M, Kaminski N, Herzog E, Ryu C. Toll-like Receptor 9 Inhibition Mitigates Fibroproliferative Responses in Translational Models of Pulmonary Fibrosis. American Journal Of Respiratory And Critical Care Medicine 2024 PMID: 39189851, DOI: 10.1164/rccm.202401-0065oc.Peer-Reviewed Original ResearchToll-like receptor 9Model of pulmonary fibrosisIdiopathic pulmonary fibrosisPulmonary fibrosisFibroproliferative responseLung diseaseIdiopathic pulmonary fibrosis cohortsExpression of toll-like receptor 9Toll-like receptor 9 activationTransplant-free survivalExpression of MCP-1Cohort of patientsSlow clinical progressionFibrotic lung diseaseAccelerated disease courseFatal lung diseaseIP-10Pharmacodynamic endpointsPreclinical modelsDisease courseClinical progressionPlasma mtDNAMCP-1Receptor 9Mouse modelSingle-Cell Profiling Reveals Immune Aberrations in Progressive Idiopathic Pulmonary Fibrosis.
Unterman A, Zhao A, Neumark N, Schupp J, Ahangari F, Cosme C, Sharma P, Flint J, Stein Y, Ryu C, Ishikawa G, Sumida T, Gomez J, Herazo-Maya J, Dela Cruz C, Herzog E, Kaminski N. Single-Cell Profiling Reveals Immune Aberrations in Progressive Idiopathic Pulmonary Fibrosis. American Journal Of Respiratory And Critical Care Medicine 2024, 210: 484-496. PMID: 38717443, PMCID: PMC11351796, DOI: 10.1164/rccm.202306-0979oc.Peer-Reviewed Original ResearchStable idiopathic pulmonary fibrosisIdiopathic pulmonary fibrosisPeripheral blood mononuclear cellsProgressive idiopathic pulmonary fibrosisPeripheral immune systemT cellsPulmonary fibrosisCohort of IPF patientsAssociated with decreased survivalIdiopathic pulmonary fibrosis patientsPeripheral blood mononuclear cell samplesPeripheral blood cell populationsImmune systemFraction of TregsRegulatory T cellsBlood mononuclear cellsBlood cell populationsFlow cytometry analysisImmune aberrationsIPF patientsTregsMononuclear cellsSingle-cell RNA sequencingLung homogenatesMonocyte chemoattractantNoninvasive assessment of the lung inflammation-fibrosis axis by targeted imaging of CMKLR1
Mannes P, Adams T, Farsijani S, Barnes C, Latoche J, Day K, Nedrow J, Ahangari F, Kaminski N, Lee J, Tavakoli S. Noninvasive assessment of the lung inflammation-fibrosis axis by targeted imaging of CMKLR1. Science Advances 2024, 10: eadm9817. PMID: 38896611, PMCID: PMC11186491, DOI: 10.1126/sciadv.adm9817.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisFibrotic lung diseaseRisk stratificationMurine modelLung fibrosisLung diseaseModel of bleomycin-induced lung fibrosisBleomycin-induced lung fibrosisImaging biomarkersMurine model of bleomycin-induced lung fibrosisBronchoalveolar lavage cellsMonocyte-derived macrophagesPositron emission tomographyInflammatory endotypesPulmonary fibrosisLavage cellsPoor survivalNoninvasive assessmentTherapeutic monitoringEmission tomographyCMKLR1FibrosisClinical trajectoryLungLung regionsAlveolar Type 2 Cells With Impaired Proteostasis Signal to Monocyte-derived Macrophages Via a MIF/DDT-CD74 Signaling Network to Promotes Pulmonary Fibrosis in IPF
Kim S, Nouws J, Cooley J, Ahangari F, Leng L, Elias J, Kaminski N, Lee P, Redente E, Kang M, Sun H, Herzog E, Bucala R, Prasse A, Sauler M. Alveolar Type 2 Cells With Impaired Proteostasis Signal to Monocyte-derived Macrophages Via a MIF/DDT-CD74 Signaling Network to Promotes Pulmonary Fibrosis in IPF. 2024, a3001-a3001. DOI: 10.1164/ajrccm-conference.2024.209.1_meetingabstracts.a3001.Peer-Reviewed Original ResearchA Monocyte-specific Gene-signature Predicts Outcomes in Patients With Idiopathic Pulmonary Fibrosis and Is Reproducible in Peripheral Blood, Bronchoalveolar Lavage, and Lung Tissue
Karampitsakos T, Tourki B, Juan-Guardela B, Perrot C, Marlin K, Arsenault A, Binder H, Wuyts W, Rottoli P, Prasse A, Tzouvelekis A, Restrepo Jaramillo R, Qureshi M, Patel K, Bandyopadhyay D, Kaminski N, Herazo-Maya J. A Monocyte-specific Gene-signature Predicts Outcomes in Patients With Idiopathic Pulmonary Fibrosis and Is Reproducible in Peripheral Blood, Bronchoalveolar Lavage, and Lung Tissue. 2024, a2860-a2860. DOI: 10.1164/ajrccm-conference.2024.209.1_meetingabstracts.a2860.Peer-Reviewed Original ResearchFibrotic cocktail treated human precision lung slices replicate the cellular diversity of the IPF lung
Justet A, Pineda H, Adams T, Balayev A, Mitash N, Ishizuka M, Kim H, Khoury J, Cala-García J, Flint J, Schupp J, Ahangari F, Yan X, Rosas I, Kaminski N, Königshoff M. Fibrotic cocktail treated human precision lung slices replicate the cellular diversity of the IPF lung. Revue Des Maladies Respiratoires 2024, 41: 218. DOI: 10.1016/j.rmr.2024.01.074.Peer-Reviewed Original ResearchCellular repertoireCell typesSingle cell platformsSequence readsCDNA libraryIllumina platformHuman genomeNucleus transcriptomicsCellular diversityIPF lungsPulmonary fibrosisEMT markersAirway epithelial cellsBasaloid cellsCellular populationsEpithelial cellsFibrotic fibroblastsCell platformLung slicesLung cell populationsHuman precision-cut lung slicesCell populationsSenescence markersCellsBasal markers
2023
Somatic Mutations: The Next Frontier in Demystifying Chronic Obstructive Pulmonary Disease and Idiopathic Pulmonary Fibrosis?
Yan X, Kaminski N. Somatic Mutations: The Next Frontier in Demystifying Chronic Obstructive Pulmonary Disease and Idiopathic Pulmonary Fibrosis? American Journal Of Respiratory And Critical Care Medicine 2023, 208: 1150-1151. PMID: 37856835, PMCID: PMC10868359, DOI: 10.1164/rccm.202310-1774ed.Peer-Reviewed Original ResearchCirculating Mitochondrial DNA Is Associated With High Levels of Fatigue in Two Independent Sarcoidosis Cohorts
Fiorini V, Hu B, Sun Y, Yu S, McGovern J, Gandhi S, Woo S, Turcotte-Foster S, Pivarnik T, Khan Z, Adams T, Herzog E, Kaminski N, Gulati M, Ryu C. Circulating Mitochondrial DNA Is Associated With High Levels of Fatigue in Two Independent Sarcoidosis Cohorts. CHEST Journal 2023, 165: 1174-1185. PMID: 37977267, PMCID: PMC11110677, DOI: 10.1016/j.chest.2023.11.020.Peer-Reviewed Original ResearchPatient-related outcome measuresToll-like receptor 9Fatigue Assessment ScalePlasma mtDNA concentrationsTLR9 activationSarcoidosis patientsMtDNA concentrationsMulti-organ sarcoidosisCommon chief complaintInnate immune activationNovel therapeutic strategiesDomains of fatigueSevere clinical phenotypePsychobiologic mechanismsSarcoidosis cohortScadding stageCorticosteroid useCytokine levelsExtrapulmonary diseaseProspective cohortFAS scoresPulmonary fibrosisChief complaintImmune activationPatient populationSRC and TKS5 mediated podosome formation in fibroblasts promotes extracellular matrix invasion and pulmonary fibrosis
Barbayianni I, Kanellopoulou P, Fanidis D, Nastos D, Ntouskou E, Galaris A, Harokopos V, Hatzis P, Tsitoura E, Homer R, Kaminski N, Antoniou K, Crestani B, Tzouvelekis A, Aidinis V. SRC and TKS5 mediated podosome formation in fibroblasts promotes extracellular matrix invasion and pulmonary fibrosis. Nature Communications 2023, 14: 5882. PMID: 37735172, PMCID: PMC10514346, DOI: 10.1038/s41467-023-41614-x.Peer-Reviewed Original ResearchConceptsPulmonary fibrosisExtracellular matrix invasionLung fibroblastsIdiopathic pulmonary fibrosis patientsIdiopathic pulmonary fibrosisPulmonary fibrosis patientsMatrix invasionPromising therapeutic optionProfibrotic milieuTherapeutic optionsLung tissuePathogenic hallmarkPharmacological targetingFibrosisFibrosis patientsIncurable diseaseEx vivoBleomycinExtracellular matrix componentsTks5 expressionAberrant depositionInvasionMiceFibroblastsSrc kinaseA statistical framework to identify cell types whose genetically regulated proportions are associated with complex diseases
Liu W, Deng W, Chen M, Dong Z, Zhu B, Yu Z, Tang D, Sauler M, Lin C, Wain L, Cho M, Kaminski N, Zhao H. A statistical framework to identify cell types whose genetically regulated proportions are associated with complex diseases. PLOS Genetics 2023, 19: e1010825. PMID: 37523391, PMCID: PMC10414598, DOI: 10.1371/journal.pgen.1010825.Peer-Reviewed Original ResearchConceptsCell typesDisease-associated tissuesWide association studyComplex diseasesCell type proportionsDisease-relevant tissuesReal GWAS dataFunctional genesTranscriptomic dataGWAS dataGenetic dataAssociation studiesNovel statistical frameworkChronic obstructive pulmonary diseaseStatistical frameworkObstructive pulmonary diseaseIdiopathic pulmonary fibrosisBreast cancer riskType proportionsBlood CD8Pulmonary diseasePulmonary fibrosisPredictive biomarkersLung tissueBreast cancerVISTA (PD-1H) Is a Crucial Immune Regulator to Limit Pulmonary Fibrosis.
Kim S, Adams T, Hu Q, Shin H, Chae G, Lee S, Sharma L, Kwon H, Lee F, Park H, Huh W, Manning E, Kaminski N, Sauler M, Chen L, Song J, Kim T, Kang M. VISTA (PD-1H) Is a Crucial Immune Regulator to Limit Pulmonary Fibrosis. American Journal Of Respiratory Cell And Molecular Biology 2023, 69: 22-33. PMID: 36450109, PMCID: PMC10324045, DOI: 10.1165/rcmb.2022-0219oc.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisPulmonary fibrosisImmune regulatorsTherapeutic potentialHuman idiopathic pulmonary fibrosisCrucial immune regulatorsNovel immune regulatorPulmonary fibrosis micePulmonary fibrosis modelNovel therapeutic targetRole of VISTAWild-type littermatesMonocyte-derived macrophagesT lymphocyte lineageVISTA expressionIPF treatmentAntibody treatmentImmune landscapeFibrotic mediatorsLung fibrosisFibrosis miceInflammatory responseFibrosis modelMyeloid populationsTherapeutic targetVascular-Parenchymal Cross-Talk Promotes Lung Fibrosis through BMPR2 Signaling.
Yanagihara T, Tsubouchi K, Zhou Q, Chong M, Otsubo K, Isshiki T, Schupp J, Sato S, Scallan C, Upagupta C, Revill S, Ayoub A, Chong S, Dvorkin-Gheva A, Kaminski N, Tikkanen J, Keshavjee S, Paré G, Guignabert C, Ask K, Kolb M. Vascular-Parenchymal Cross-Talk Promotes Lung Fibrosis through BMPR2 Signaling. American Journal Of Respiratory And Critical Care Medicine 2023, 207: 1498-1514. PMID: 36917778, DOI: 10.1164/rccm.202109-2174oc.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisVascular smooth muscle cellsAdvanced idiopathic pulmonary fibrosisPulmonary hypertensionFibrotic lungsVascular remodelingEndothelial cellsPulmonary fibrosisLung diseaseLung fibrosisDevelopment of PHConcomitant pulmonary hypertensionProgressive lung scarringPulmonary vascular remodelingFibrotic lung diseaseProgression of fibrosisActivation of VSMCsActive TGF-β1Fatal lung diseaseSmooth muscle cellsWhole-exome sequencingLung scarringEndothelial dysfunctionPoor prognosisFibrogenic effects