2023
IL-6 trans-signaling in a humanized mouse model of scleroderma
Odell I, Agrawal K, Sefik E, Odell A, Caves E, Kirkiles-Smith N, Horsley V, Hinchcliff M, Pober J, Kluger Y, Flavell R. IL-6 trans-signaling in a humanized mouse model of scleroderma. Proceedings Of The National Academy Of Sciences Of The United States Of America 2023, 120: e2306965120. PMID: 37669366, PMCID: PMC10500188, DOI: 10.1073/pnas.2306965120.Peer-Reviewed Original ResearchConceptsBone marrow-derived immune cellsIL-6Human hematopoietic stem cellsImmune cellsT cellsScleroderma skinSoluble IL-6 receptorCD8 T cellsHumanized mouse modelPathogenesis of sclerodermaMesenchymal cellsFibroblast-derived IL-6IL-6 receptorIL-6 signalingT cell activationHuman IL-6Human T cellsExpression of collagenFibrosis improvementPansclerotic morpheaHuman endothelial cellsHumanized miceReduced markersSkin graftsHuman CD4
2022
Epiregulin is a dendritic cell–derived EGFR ligand that maintains skin and lung fibrosis
Odell I, Steach H, Gauld S, Reinke-Breen L, Karman J, Carr T, Wetter J, Phillips L, Hinchcliff M, Flavell R. Epiregulin is a dendritic cell–derived EGFR ligand that maintains skin and lung fibrosis. Science Immunology 2022, 7: eabq6691. PMID: 36490328, PMCID: PMC9840167, DOI: 10.1126/sciimmunol.abq6691.Peer-Reviewed Original ResearchConceptsLung fibrosisDendritic cellsImmune cellsDiffuse cutaneous systemic sclerosisPersistence of fibrosisCutaneous systemic sclerosisExtent of fibrosisType I interferonSystemic sclerosisAutoimmune diseasesAntifibrotic targetsTherapeutic administrationMouse modelI interferonLung samplesLung explantsFibrosisFibrotic tissueImmune signalsEpiregulin expressionPatient's skinExtracellular matrix productionGenetic deficiencyEpiregulinEGFR ligands
2017
Monocyte-derived alveolar macrophages drive lung fibrosis and persist in the lung over the life span
Misharin AV, Morales-Nebreda L, Reyfman PA, Cuda CM, Walter JM, McQuattie-Pimentel AC, Chen CI, Anekalla KR, Joshi N, Williams KJN, Abdala-Valencia H, Yacoub TJ, Chi M, Chiu S, Gonzalez-Gonzalez FJ, Gates K, Lam AP, Nicholson TT, Homan PJ, Soberanes S, Dominguez S, Morgan VK, Saber R, Shaffer A, Hinchcliff M, Marshall SA, Bharat A, Berdnikovs S, Bhorade SM, Bartom ET, Morimoto RI, Balch WE, Sznajder JI, Chandel NS, Mutlu GM, Jain M, Gottardi CJ, Singer BD, Ridge KM, Bagheri N, Shilatifard A, Budinger GRS, Perlman H. Monocyte-derived alveolar macrophages drive lung fibrosis and persist in the lung over the life span. Journal Of Experimental Medicine 2017, 214: 2387-2404. PMID: 28694385, PMCID: PMC5551573, DOI: 10.1084/jem.20162152.Peer-Reviewed Original ResearchConceptsMonocyte-derived alveolar macrophagesTissue-resident alveolar macrophagesAlveolar macrophage differentiationMacrophage differentiationTissue-resident macrophagesProfibrotic genesHuman homologueTranscriptomic profilingGenetic deletionAlveolar macrophagesGenesFlow-sorted cellsResolution of fibrosisLife spanDifferentiationHuman alveolar macrophagesSpecific genetic deletionMacrophagesRelative importanceHomologues
2016
Tenascin-C drives persistence of organ fibrosis
Bhattacharyya S, Wang W, Morales-Nebreda L, Feng G, Wu M, Zhou X, Lafyatis R, Lee J, Hinchcliff M, Feghali-Bostwick C, Lakota K, Budinger GR, Raparia K, Tamaki Z, Varga J. Tenascin-C drives persistence of organ fibrosis. Nature Communications 2016, 7: 11703. PMID: 27256716, PMCID: PMC4895803, DOI: 10.1038/ncomms11703.Peer-Reviewed Original ResearchConceptsSystemic sclerosisToll-like receptorsOrgan fibrosisFibrosis resolutionPathogenesis of SScTreatment of SScLevels of tenascinEndogenous danger signalsSSc skin biopsy samplesSkin biopsy samplesMechanism of actionLung fibrosisPathogenic roleTLR activatorsMouse modelBiopsy samplesFibroblast activationDanger signalsMyofibroblast transformationFibrosisSSc fibroblastsCollagen gene expressionSkin fibroblastsAmplification loopTenascin
2015
The Histone Deacetylase Sirtuin 1 Is Reduced in Systemic Sclerosis and Abrogates Fibrotic Responses by Targeting Transforming Growth Factor β Signaling
Wei J, Ghosh AK, Chu H, Fang F, Hinchcliff ME, Wang J, Marangoni RG, Varga J. The Histone Deacetylase Sirtuin 1 Is Reduced in Systemic Sclerosis and Abrogates Fibrotic Responses by Targeting Transforming Growth Factor β Signaling. Arthritis & Rheumatology 2015, 67: 1323-1334. PMID: 25707573, PMCID: PMC4518870, DOI: 10.1002/art.39061.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCase-Control StudiesCells, CulturedDisease Models, AnimalEnzyme InhibitorsFibroblastsHumansMiceP300-CBP Transcription FactorsPlatelet-Derived Growth FactorReal-Time Polymerase Chain ReactionResveratrolRNA, MessengerScleroderma, SystemicSignal TransductionSirtuin 1SkinSmad ProteinsStilbenesTransforming Growth Factor betaConceptsGenome-wide expression data setsTransforming Growth Factor β SignalingGrowth factor β signalingSSc skin biopsy samplesSirtuin 1Histone deacetylase sirtuin 1Tissue expressionExpression data setsPlatelet-derived growth factorTranscriptome dataDeacetylase sirtuin 1Epigenetic mechanismsAcetyltransferase p300Acetylation statusEnzyme sirtuin 1Persistent fibroblast activationEffect of SIRT1Β signalingMessenger RNA levelsMouse fibroblastsFibrotic responseLoss of SIRT1Activation of SIRT1Pharmacologic inhibitionExperimental fibrosis model
2013
Early Growth Response 3 (Egr-3) Is Induced by Transforming Growth Factor-β and Regulates Fibrogenic Responses
Fang F, Shangguan AJ, Kelly K, Wei J, Gruner K, Ye B, Wang W, Bhattacharyya S, Hinchcliff ME, Tourtellotte WG, Varga J. Early Growth Response 3 (Egr-3) Is Induced by Transforming Growth Factor-β and Regulates Fibrogenic Responses. American Journal Of Pathology 2013, 183: 1197-1208. PMID: 23906810, PMCID: PMC3791870, DOI: 10.1016/j.ajpath.2013.06.016.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnimalsDisease Models, AnimalEarly Growth Response Protein 1Early Growth Response Protein 2Early Growth Response Protein 3FemaleFibroblastsFibrosisGene Expression ProfilingGene Expression RegulationHumansIntracellular SpaceMaleMiceMice, Inbred BALB CMiddle AgedScleroderma, SystemicSignal TransductionSkinSmad ProteinsTransforming Growth Factor betaConceptsEgr-3Genome-wide expression profilingSubstantial functional divergenceEarly growth response (EGR) gene familyEarly growth response 3Egr family membersFunctional divergenceGene familyFibroblast genesGrowth factorTranscription factorsExpression profilingBiological functionsGene expressionDistinct membersEgr familyEgr-1Canonical Smad3Distinct rolesEgr-2Normal skin fibroblastsTissue remodelingFibrotic gene expressionGenesFirst evidenceA synthetic PPAR-γ agonist triterpenoid ameliorates experimental fibrosis: PPAR-γ-independent suppression of fibrotic responses
Wei J, Zhu H, Komura K, Lord G, Tomcik M, Wang W, Doniparthi S, Tamaki Z, Hinchcliff M, Distler JH, Varga J. A synthetic PPAR-γ agonist triterpenoid ameliorates experimental fibrosis: PPAR-γ-independent suppression of fibrotic responses. Annals Of The Rheumatic Diseases 2013, 73: 446. PMID: 23515440, PMCID: PMC4028127, DOI: 10.1136/annrheumdis-2012-202716.Peer-Reviewed Original ResearchMeSH KeywordsAdipogenesisAdultAnimalsBiopsyCells, CulturedCollagenDisease Models, AnimalDrug Evaluation, PreclinicalFemaleFibroblastsFibrosisHumansInfant, NewbornMiceMice, Inbred C57BLOleanolic AcidOrgan Culture TechniquesPPAR gammaProto-Oncogene Proteins c-aktScleroderma, SystemicSignal TransductionSkinTransforming Growth Factor betaConceptsSkin organ cultureHuman skin organ cultureAntifibrotic effectsDermal fibrosisExperimental fibrosisOrgan culturePeroxisome proliferator-activated receptor γModulation of fibrogenesisProliferator-activated receptor γHuman skin equivalentsPotential new therapiesPotential therapeutic strategyFibrotic gene expressionSynthetic oleanane triterpenoidComplementary mouse modelsControl of fibrosisPersistent fibroblast activationGrowth factor βTGF-β signalingEffects of CDDOSystemic sclerosisBleomycin injectionFibrogenic responseFibrotic activityMurine model
2012
Imatinib mesylate causes genome-wide transcriptional changes in systemic sclerosis fibroblasts in vitro.
Hinchcliff M, Huang CC, Ishida W, Fang F, Lee J, Jafari N, Wilkes M, Bhattacharyya S, Leof E, Varga J. Imatinib mesylate causes genome-wide transcriptional changes in systemic sclerosis fibroblasts in vitro. Clinical And Experimental Rheumatology 2012, 30: s86-96. PMID: 22691216, PMCID: PMC3860597.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBenzamidesBiopsyCase-Control StudiesCells, CulturedFibroblastsFibrosisGene Expression ProfilingGene Expression RegulationHumansImatinib MesylateMiceMice, KnockoutOligonucleotide Array Sequence AnalysisPhosphorylationPiperazinesProtein Kinase InhibitorsProto-Oncogene Proteins c-ablPyrimidinesScleroderma, SystemicSignal TransductionSkinTime FactorsTranscription, GeneticTransforming Growth Factor beta1ConceptsSystemic sclerosisSSc fibroblastsSkin biopsiesInternal organ fibrosisHeterogeneous multifactorial diseaseControl fibroblastsControl skin biopsiesFibrotic gene expressionSystemic sclerosis fibroblastsC-AblProgressive skinAntifibrotic effectsImatinib mesylateHealthy controlsCardiovascular diseaseGene expressionHealthy subjectsFibrotic responseCholesterol metabolismOrgan fibrosisC-Abl activationMultifactorial diseaseTreatment resultsTissue levelsFibrosis
2011
Canonical Wnt signaling induces skin fibrosis and subcutaneous lipoatrophy: A novel mouse model for scleroderma?
Wei J, Melichian D, Komura K, Hinchcliff M, Lam AP, Lafyatis R, Gottardi CJ, MacDougald OA, Varga J. Canonical Wnt signaling induces skin fibrosis and subcutaneous lipoatrophy: A novel mouse model for scleroderma? Arthritis & Rheumatism 2011, 63: 1707-1717. PMID: 21370225, PMCID: PMC3124699, DOI: 10.1002/art.30312.Peer-Reviewed Original ResearchConceptsSystemic sclerosisSubcutaneous adipose tissueTransgenic miceWnt-10bBiopsy specimensDermal fibrosisMouse modelAdipose tissueLesional skin biopsy specimensSkin biopsy specimensNovel mouse modelMesenchymal cellsSmooth muscle actin gene expressionSkin fibroblastsNovel animal modelFibrotic gene expressionWnt/β-catenin signalingSetting of fibrosisGrowth factor βΒ-catenin signalingPulmonary fibrosisSubcutaneous lipoatrophySkin fibrosisGene expressionMyofibroblast accumulation
2009
A non-Smad mechanism of fibroblast activation by transforming growth factor-β via c-Abl and Egr-1: selective modulation by imatinib mesylate
Bhattacharyya S, Ishida W, Wu M, Wilkes M, Mori Y, Hinchcliff M, Leof E, Varga J. A non-Smad mechanism of fibroblast activation by transforming growth factor-β via c-Abl and Egr-1: selective modulation by imatinib mesylate. Oncogene 2009, 28: 1285-1297. PMID: 19151753, PMCID: PMC4006376, DOI: 10.1038/onc.2008.479.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBenzamidesBleomycinCells, CulturedCollagenEarly Growth Response Protein 1Extracellular Signal-Regulated MAP KinasesFibroblastsFibrosisHumansImatinib MesylateMiceMice, Inbred BALB CNIH 3T3 CellsPiperazinesProtein Kinase InhibitorsProto-Oncogene Proteins c-ablPyrimidinesSignal TransductionSmad2 ProteinSmad3 ProteinTransforming Growth Factor betaConceptsChronic myelogenous leukemiaFibrotic responseEgr-1Growth factorUpregulated tissue expressionFibrosis of skinNovel therapeutic approachesEarly growth response factor-1Kinase-deficient mutant formC-AblNormal fibroblastsTGF-β stimulationIntracellular signaling mechanismLesional skinStimulation of collagenImatinib mesylateMouse embryonic fibroblastsFibrotic processMyelogenous leukemiaTherapeutic approachesPharmacological targetingTarget of inhibitionTGF-β responseFibroblast activationC-Abl activation
2007
Connective tissue growth factor/CCN2-null mouse embryonic fibroblasts retain intact transforming growth factor-β responsiveness
Mori Y, Hinchcliff M, Wu M, Warner-Blankenship M, Lyons K, Varga J. Connective tissue growth factor/CCN2-null mouse embryonic fibroblasts retain intact transforming growth factor-β responsiveness. Experimental Cell Research 2007, 314: 1094-1104. PMID: 18201696, PMCID: PMC3963386, DOI: 10.1016/j.yexcr.2007.12.010.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell DifferentiationCell ProliferationCells, CulturedCollagenCollagen Type IConnective Tissue Growth FactorEmbryo, MammalianExtracellular MatrixFibroblastsFibrosisGene ExpressionImmediate-Early ProteinsIntercellular Signaling Peptides and ProteinsMiceSignal TransductionSmad ProteinsTransforming Growth Factor betaConceptsEmbryonic fibroblastsSmad-dependent transcriptional responsesTGF-beta signal transductionMatricellular protein connective tissue growth factorMurine embryonic fibroblastsMouse embryonic fibroblastsProtein connective tissue growth factorWild-type MEFsTransient transfection assaysMyofibroblast transdifferentiationCCN2 expressionRegulation of proliferationCorresponding protein levelsCCN2 functionsCollagen gene expressionTranscriptional responseRT-PCR analysisLoss of CCN2Signal transductionEndogenous CCN2Transfection assaysExtracellular matrix synthesisMouse embryosGene expressionWild type