2024
CCR2+ monocytes are dispensable to resolve acute pulmonary Pseudomonas aeruginosa infections in WT and Cystic Fibrosis mice
Öz H, Braga C, Gudneppanavar R, Di Pietro C, Huang P, Zhang P, Krause D, Egan M, Murray T, Bruscia E. CCR2+ monocytes are dispensable to resolve acute pulmonary Pseudomonas aeruginosa infections in WT and Cystic Fibrosis mice. Journal Of Leukocyte Biology 2024, qiae218. PMID: 39365279, DOI: 10.1093/jleuko/qiae218.Peer-Reviewed Original ResearchLung tissue damageCystic fibrosisTissue damageMonocyte recruitmentImmune responsePulmonary Pseudomonas aeruginosa infectionHyper-inflammatory immune responseCystic fibrosis micePropagate tissue damagePseudomonas aeruginosaLungs of patientsChronic neutrophilic inflammationImmunological response to infectionHost immune responseMonocyte-derived macrophagesTarget monocyte recruitmentSite of injuryResponse to infectionCFTR modulatorsPA infectionChronic inflammatory disease conditionsReduced bactericidal activityAdjunctive therapyClinical outcomesEradicate infection219 CFTR dysfunction shapes airway immune cell compositions contributing to lung pathogenesis in children with cystic fibrosis
Kizilirmak T, Yin H, Garrison A, Browne J, Bruscia E, Egan M, Britto C. 219 CFTR dysfunction shapes airway immune cell compositions contributing to lung pathogenesis in children with cystic fibrosis. Journal Of Cystic Fibrosis 2024, 23: s119. DOI: 10.1016/s1569-1993(24)01059-2.Peer-Reviewed Original Research
2022
Update on Innate and Adaptive Immunity in Cystic Fibrosis
Bruscia E, Bonfield T. Update on Innate and Adaptive Immunity in Cystic Fibrosis. Clinics In Chest Medicine 2022, 43: 603-615. PMID: 36344069, DOI: 10.1016/j.ccm.2022.06.004.Peer-Reviewed Original ResearchConceptsChronic infectionCFTR modulator therapyRobust inflammatory responseCystic fibrosis pathophysiologyImmune dysregulationPatient ageExcessive inflammationModulator therapyLung microenvironmentLung infectionImmune mechanismsInflammatory responseAdaptive immunityMucociliary transportCF life expectancyCF lungCystic fibrosisInfectionLife expectancyImmunityCritical roleCurrent understandingMorbidityInflammationFibrosisRecruited monocytes/macrophages drive pulmonary neutrophilic inflammation and irreversible lung tissue remodeling in cystic fibrosis
Öz H, Cheng E, Di Pietro C, Tebaldi T, Biancon G, Zeiss C, Zhang P, Huang P, Esquibies S, Britto C, Schupp J, Murray T, Halene S, Krause D, Egan M, Bruscia E. Recruited monocytes/macrophages drive pulmonary neutrophilic inflammation and irreversible lung tissue remodeling in cystic fibrosis. Cell Reports 2022, 41: 111797. PMID: 36516754, PMCID: PMC9833830, DOI: 10.1016/j.celrep.2022.111797.Peer-Reviewed Original ResearchConceptsC motif chemokine receptor 2Monocytes/macrophagesLung tissue damageCystic fibrosisTissue damageCF lungPulmonary neutrophilic inflammationPro-inflammatory environmentChemokine receptor 2CF lung diseaseNumber of monocytesSpecific therapeutic agentsGrowth factor βCF transmembrane conductance regulatorLung hyperinflammationLung neutrophiliaNeutrophilic inflammationNeutrophil inflammationInflammation contributesLung damageNeutrophil recruitmentLung diseaseLung tissueReceptor 2Therapeutic targetEmerging Concepts in Defective Macrophage Phagocytosis in Cystic Fibrosis
Jaganathan D, Bruscia EM, Kopp BT. Emerging Concepts in Defective Macrophage Phagocytosis in Cystic Fibrosis. International Journal Of Molecular Sciences 2022, 23: 7750. PMID: 35887098, PMCID: PMC9319215, DOI: 10.3390/ijms23147750.Peer-Reviewed Original ResearchConceptsPhagosome formationCystic fibrosis transmembrane conductance regulator (CFTR) geneTransmembrane conductance regulator geneInnate immunityTissue homeostasisRegulator geneMutant CFTRCF macrophagesCystic fibrosisPhagocytic mechanismsPathogenic microbesAdaptive immune systemDefective macrophage phagocytosisCFTRCurrent understandingTherapeutic developmentCentral roleMacrophage phagocytosisCFTR modulatorsPhagocytic cellsPhagocytosisNew therapeutic developmentsMacrophages contributesLung functionChronic inflammationRecruitment of monocytes primed to express heme oxygenase-1 ameliorates pathological lung inflammation in cystic fibrosis
Di Pietro C, Öz HH, Zhang PX, Cheng EC, Martis V, Bonfield TL, Kelley TJ, Jubin R, Abuchowski A, Krause DS, Egan ME, Murray TS, Bruscia EM. Recruitment of monocytes primed to express heme oxygenase-1 ameliorates pathological lung inflammation in cystic fibrosis. Experimental & Molecular Medicine 2022, 54: 639-652. PMID: 35581352, PMCID: PMC9166813, DOI: 10.1038/s12276-022-00770-8.Peer-Reviewed Original ResearchConceptsHeme oxygenase-1Cystic fibrosisOxygenase-1Myeloid differentiation factor 88Neutrophilic pulmonary inflammationChronic airway infectionDifferentiation factor 88HO-1 levelsDisease mouse modelPseudomonas aeruginosaRecruitment of monocytesResolution of inflammationMonocytes/macrophagesTreatment of CFConditional knockout miceMechanism of actionLung neutrophiliaNeutrophilic inflammationLung inflammationAirway infectionPulmonary diseasePulmonary inflammationFactor 88Lung damageProinflammatory cytokines
2020
Single-Cell Transcriptional Archetypes of Airway Inflammation in Cystic Fibrosis.
Schupp JC, Khanal S, Gomez JL, Sauler M, Adams TS, Chupp GL, Yan X, Poli S, Zhao Y, Montgomery RR, Rosas IO, Dela Cruz CS, Bruscia EM, Egan ME, Kaminski N, Britto CJ. Single-Cell Transcriptional Archetypes of Airway Inflammation in Cystic Fibrosis. American Journal Of Respiratory And Critical Care Medicine 2020, 202: 1419-1429. PMID: 32603604, PMCID: PMC7667912, DOI: 10.1164/rccm.202004-0991oc.Peer-Reviewed Original ResearchConceptsCF lung diseaseHealthy control subjectsImmune dysfunctionLung diseaseCystic fibrosisControl subjectsSputum cellsAbnormal chloride transportLung mononuclear phagocytesInnate immune dysfunctionDivergent clinical coursesImmune cell repertoireMonocyte-derived macrophagesCF monocytesAirway inflammationClinical courseProinflammatory featuresCell survival programInflammatory responseTissue injuryCell repertoireImmune functionTranscriptional profilesAlveolar macrophagesMononuclear phagocytesTargeting the Heme Oxygenase 1/Carbon Monoxide Pathway to Resolve Lung Hyper-Inflammation and Restore a Regulated Immune Response in Cystic Fibrosis
Di Pietro C, Öz HH, Murray TS, Bruscia EM. Targeting the Heme Oxygenase 1/Carbon Monoxide Pathway to Resolve Lung Hyper-Inflammation and Restore a Regulated Immune Response in Cystic Fibrosis. Frontiers In Pharmacology 2020, 11: 1059. PMID: 32760278, PMCID: PMC7372134, DOI: 10.3389/fphar.2020.01059.Peer-Reviewed Original ResearchCF lung diseaseCarbon monoxide pathwayCystic fibrosisImmune responseHO-1Lung diseaseInflammatory responseMonoxide pathwayBacterial infectionsHost defenseHO-1/CO pathwayOxidative stressDefective host defenseRegulated immune responseEndogenous HO-1Non-resolving inflammationBactericidal activityHO-1 activationHO-1 inductionCF lung tissueContinuous tissue damagePotential cellular mechanismsPersistent bacterial infectionsMonocytes/MΦsBactericidal mediators
2016
Increased susceptibility of Cftr−/− mice to LPS-induced lung remodeling
Bruscia E, Zhang P, Barone C, Scholte BJ, Homer R, Krause D, Egan ME. Increased susceptibility of Cftr−/− mice to LPS-induced lung remodeling. American Journal Of Physiology - Lung Cellular And Molecular Physiology 2016, 310: l711-l719. PMID: 26851259, PMCID: PMC4836110, DOI: 10.1152/ajplung.00284.2015.Peer-Reviewed Original ResearchConceptsLung pathologyCF miceImmune responseWT miceChronic inflammationCystic fibrosisAbnormal immune responseChronic pulmonary infectionPersistent immune responseWild-type littermatesCF mouse modelsPseudomonas aeruginosa lipopolysaccharideCF lung pathologyPulmonary infectionChronic administrationLPS exposurePersistent inflammationLung remodelingWT littermatesLung tissueOverall pathologyMouse modelInflammationChronic exposureBacterial products
2015
Innate and Adaptive Immunity in Cystic Fibrosis
Bruscia EM, Bonfield TL. Innate and Adaptive Immunity in Cystic Fibrosis. Clinics In Chest Medicine 2015, 37: 17-29. PMID: 26857765, DOI: 10.1016/j.ccm.2015.11.010.Peer-Reviewed Original ResearchConceptsImmune cellsCystic fibrosis lung diseaseLung tissue destructionAnti-inflammatory cytokinesRobust inflammatory responseElevated proinflammatoryImmune dysregulationUnresolved inflammationLung diseaseInflammatory responseLeading causeCF patientsTissue destructionAdaptive immunityCF lungCystic fibrosisHost defenseElevated numbersExocrine pancreasHyperinflammationLungTissue integrityCurrent understandingCellsProinflammatory
2012
Nebulized Hyaluronan Ameliorates lung inflammation in cystic fibrosis mice
Gavina M, Luciani A, Villella VR, Esposito S, Ferrari E, Bressani I, Casale A, Bruscia EM, Maiuri L, Raia V. Nebulized Hyaluronan Ameliorates lung inflammation in cystic fibrosis mice. Pediatric Pulmonology 2012, 48: 761-771. PMID: 22825912, DOI: 10.1002/ppul.22637.Peer-Reviewed Original ResearchConceptsLung inflammationCystic fibrosisLung tissueReactive oxygen speciesScnn1b-Tg miceHuman airway epithelial cellsSaline-treated miceChronic lung inflammationInflammatory protein-2Chronic respiratory diseasesPeroxisome Proliferator-Activated Receptor GammaPotential anti-inflammatory drugsAnti-inflammatory drugsAirway epithelial cellsCystic fibrosis miceIB3-1Myeloperoxidase levelsMIP-2MPO activityMacrophage infiltrationFibrosis miceTumor necrosisExogenous administrationTNFα expressionCF airways
2008
Macrophages Directly Contribute to the Exaggerated Inflammatory Response in Cystic Fibrosis Transmembrane Conductance Regulator−/− Mice
Bruscia EM, Zhang PX, Ferreira E, Caputo C, Emerson JW, Tuck D, Krause DS, Egan ME. Macrophages Directly Contribute to the Exaggerated Inflammatory Response in Cystic Fibrosis Transmembrane Conductance Regulator−/− Mice. American Journal Of Respiratory Cell And Molecular Biology 2008, 40: 295-304. PMID: 18776130, PMCID: PMC2645527, DOI: 10.1165/rcmb.2008-0170oc.Peer-Reviewed Original ResearchConceptsExaggerated inflammatory responseExaggerated immune responseBone marrow-derived macrophagesIL-6Marrow-derived macrophagesCystic fibrosisCF miceKeratinocyte chemoattractantCytokine responsesInflammatory responseIL-1alphaImmune responseAlveolar macrophagesBronchoalveolar lavage fluidGranulocyte colony-stimulating factorNumber of neutrophilsChemoattractant protein-1CF lung diseaseElevated cytokine responseInnate immune systemImportant therapeutic targetCF mouse modelsPopulation of macrophagesColony-stimulating factorPseudomonas aeruginosa LPSRectal Potential Difference and the Functional Expression of CFTR in the Gastrointestinal Epithelia in Cystic Fibrosis Mouse Models
Weiner SA, Caputo C, Bruscia E, Ferreira EC, Price JE, Krause DS, Egan ME. Rectal Potential Difference and the Functional Expression of CFTR in the Gastrointestinal Epithelia in Cystic Fibrosis Mouse Models. Pediatric Research 2008, 63: 73-78. PMID: 18043508, DOI: 10.1203/pdr.0b013e31815b4bc6.Peer-Reviewed Original ResearchConceptsRectal potential differenceMouse modelCF mouse modelsCystic fibrosisFibrosis mouse modelDifferent mouse modelsCystic fibrosis mouse modelUssing chamber methodEffects of interventionsAutosomal recessive diseasePharmacologic interventionsRespiratory epitheliumElectrophysiologic phenotypeGastrointestinal epitheliumCF transmembrane conductance regulator (CFTR) geneRecessive diseaseVivo methodsVivo assaysVivo dataCFTR functionTransmembrane conductance regulator geneReliable assayEpitheliumInterventionCFTR expression
2003
Sequence-specific modification of genomic DNA by small DNA fragments
Gruenert DC, Bruscia E, Novelli G, Colosimo A, Dallapiccola B, Sangiuolo F, Goncz KK. Sequence-specific modification of genomic DNA by small DNA fragments. Journal Of Clinical Investigation 2003, 112: 637-641. PMID: 12952908, PMCID: PMC182219, DOI: 10.1172/jci19773.Peer-Reviewed Original ResearchConceptsSmall fragment homologous replacementSequence-specific modificationSmall DNA fragmentsGenomic DNADNA fragmentsEndogenous genomic DNADuchenne muscular dystrophyTherapeutic modalitiesCystic fibrosisHomologous replacementGenomic editingMuscular dystrophyGenetic lociMouse cellsUnderlying mechanismPhenotypic analysisSpecific modificationsDNA
2002
Towards the pharmacogenomics of cystic fibrosis
Sangiuolo F, DApice M, Bruscia E, Lucidi V, Novelli G. Towards the pharmacogenomics of cystic fibrosis. Pharmacogenomics 2002, 3: 75-87. PMID: 11966405, DOI: 10.1517/14622416.3.1.75.Peer-Reviewed Original ResearchConceptsCystic fibrosisPancreatic insufficiencyChronic obstructive lung diseaseRelated clinical diseasesObstructive lung diseaseElevated sweat chloride concentrationsExocrine pancreatic insufficiencySweat chloride concentrationCongenital bilateral absenceMultiorgan diseaseChronic pancreatitisClinical symptomsLung diseaseDrug therapyClinical diseaseClinical overlapRecessive genetic diseaseTherapeutic questionsBilateral absenceDrug efficacyDiseaseVas deferensTherapy approachesFibrosisSymptoms