2023
SRC 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 kinase
2021
Macrophage-derived netrin-1 drives adrenergic nerve–associated lung fibrosis
Gao R, Peng X, Perry C, Sun H, Ntokou A, Ryu C, Gomez JL, Reeves BC, Walia A, Kaminski N, Neumark N, Ishikawa G, Black KE, Hariri LP, Moore MW, Gulati M, Homer RJ, Greif DM, Eltzschig HK, Herzog EL. Macrophage-derived netrin-1 drives adrenergic nerve–associated lung fibrosis. Journal Of Clinical Investigation 2021, 131: e136542. PMID: 33393489, PMCID: PMC7773383, DOI: 10.1172/jci136542.Peer-Reviewed Original ResearchConceptsNetrin-1Lung fibrosisCell-specific knockout miceΑ1-adrenoreceptor blockadeIPF lung tissueNeuronal guidance proteinsNetrin-1 expressionExtracellular matrix accumulationAdrenergic processesAdrenoreceptor antagonismAdrenoreceptor blockadeFibrotic histologyInflammatory scarringIPF cohortAdrenergic nervesΑ1-blockersImproved survivalColorectal carcinomaLung tissueKnockout miceCollagen accumulationFibrosisMatrix accumulationMacrophagesGuidance proteins
2016
SH2 Domain–Containing Phosphatase-2 Is a Novel Antifibrotic Regulator in Pulmonary Fibrosis
Tzouvelekis A, Yu G, Lino Cardenas CL, Herazo-Maya JD, Wang R, Woolard T, Zhang Y, Sakamoto K, Lee H, Yi JS, DeIuliis G, Xylourgidis N, Ahangari F, Lee PJ, Aidinis V, Herzog EL, Homer R, Bennett AM, Kaminski N. SH2 Domain–Containing Phosphatase-2 Is a Novel Antifibrotic Regulator in Pulmonary Fibrosis. American Journal Of Respiratory And Critical Care Medicine 2016, 195: 500-514. PMID: 27736153, PMCID: PMC5378419, DOI: 10.1164/rccm.201602-0329oc.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisPulmonary fibrosisProfibrotic stimuliLung fibroblastsChronic fatal lung diseaseMyofibroblast differentiationPrimary human lung fibroblastsFatal lung diseaseNovel therapeutic strategiesVivo therapeutic effectPotential therapeutic usefulnessHuman lung fibroblastsMouse lung fibroblastsDismal prognosisFibroblastic fociLung fibrosisLung diseaseBleomycin modelTherapeutic effectTherapeutic usefulnessTherapeutic strategiesTherapeutic targetTransgenic miceFibrosisSHP2 overexpression
2010
TGF-beta driven lung fibrosis is macrophage dependent and blocked by Serum amyloid P
Murray LA, Chen Q, Kramer MS, Hesson DP, Argentieri RL, Peng X, Gulati M, Homer RJ, Russell T, van Rooijen N, Elias JA, Hogaboam CM, Herzog EL. TGF-beta driven lung fibrosis is macrophage dependent and blocked by Serum amyloid P. The International Journal Of Biochemistry & Cell Biology 2010, 43: 154-162. PMID: 21044893, DOI: 10.1016/j.biocel.2010.10.013.Peer-Reviewed Original ResearchConceptsSerum amyloid PAnti-fibrotic effectsLung fibrosisFibrocyte accumulationAmyloid PAberrant extracellular matrix (ECM) depositionTransgenic mouse modelM2 macrophage differentiationPleiotropic growth factorExtracellular matrix depositionAirway inflammationIPF patientsAirway remodelingPulmonary fibrosisMacrophage accumulationLung diseaseLiposomal clodronateCXCL10 expressionM2 macrophagesMonocyte responsePulmonary macrophagesMouse modelCollagen depositionPathogenic mechanismsDisease severityInhibition of pulmonary fibrosis in mice by CXCL10 requires glycosaminoglycan binding and syndecan-4
Jiang D, Liang J, Campanella GS, Guo R, Yu S, Xie T, Liu N, Jung Y, Homer R, Meltzer EB, Li Y, Tager AM, Goetinck PF, Luster AD, Noble PW. Inhibition of pulmonary fibrosis in mice by CXCL10 requires glycosaminoglycan binding and syndecan-4. Journal Of Clinical Investigation 2010, 120: 2049-2057. PMID: 20484822, PMCID: PMC2877927, DOI: 10.1172/jci38644.Peer-Reviewed Original ResearchConceptsPulmonary fibrosisCXCL10 proteinAcute lung injuryExcess extracellular matrix productionLung fibroblast migrationSyndecan-4Myofibroblast recruitmentLung injuryLung functionSubsequent fibrosisNeutrophil recruitmentInterstitial fibrosisWT miceIntratracheal instillationSyndecan-4 expressionNovel therapiesMigration of fibroblastsFibrosisBleomycin treatmentCXCL10Fibroblast recruitmentExtracellular matrix productionHeparan sulfate proteoglycan syndecan-4Interstitial compartmentMice
2007
Transforming Growth Factor (TGF)-β1 Stimulates Pulmonary Fibrosis and Inflammation via a Bax-dependent, Bid-activated Pathway That Involves Matrix Metalloproteinase-12*
Kang HR, Cho SJ, Lee CG, Homer RJ, Elias JA. Transforming Growth Factor (TGF)-β1 Stimulates Pulmonary Fibrosis and Inflammation via a Bax-dependent, Bid-activated Pathway That Involves Matrix Metalloproteinase-12*. Journal Of Biological Chemistry 2007, 282: 7723-7732. PMID: 17209037, DOI: 10.1074/jbc.m610764200.Peer-Reviewed Original ResearchConceptsMMP-12Pulmonary fibrosisWild typeGrowth factorInterstitial lung diseaseEffects of TGFMatrix metalloproteinase-12Pulmonary diseaseExaggerated productionPulmonary responseLung diseaseMMP-9Effector functionsTIMP-1Matrix metalloproteinaseFibrosisPotent stimulatorMetalloproteinase-12TGFBax activationInflammationPathogenesisBaxApoptosisDisease
2004
Regulation of pulmonary fibrosis by chemokine receptor CXCR3
Jiang D, Liang J, Hodge J, Lu B, Zhu Z, Yu S, Fan J, Gao Y, Yin Z, Homer R, Gerard C, Noble PW. Regulation of pulmonary fibrosis by chemokine receptor CXCR3. Journal Of Clinical Investigation 2004, 114: 291-299. PMID: 15254596, PMCID: PMC449741, DOI: 10.1172/jci16861.Peer-Reviewed Original ResearchConceptsCXC chemokine receptor 3Lung NK cellsCXCR3-deficient miceIFN-gamma productionLung injuryIFN-gammaEnhanced fibrosisNK cellsWT miceChemokine receptors CXC chemokine receptor 3Chemokine MIG/CXCL9Endogenous IFN-gamma productionI-TAC/CXCL11IP-10/CXCL10Inflammatory cell recruitmentProgressive interstitial fibrosisChemokine receptor 3Exogenous IFN-gammaExpression of CXCL10MIG/CXCL9CXCR3 deficiencyAdoptive transferPulmonary injuryLymph nodesPulmonary fibrosis