2022
Lung Injury Induces Alveolar Type 2 Cell Hypertrophy and Polyploidy with Implications for Repair and Regeneration.
Weng A, Maciel Herrerias M, Watanabe S, Welch LC, Flozak AS, Grant RA, Aillon RP, Dada LA, Han SH, Hinchcliff M, Misharin AV, Budinger GRS, Gottardi CJ. Lung Injury Induces Alveolar Type 2 Cell Hypertrophy and Polyploidy with Implications for Repair and Regeneration. American Journal Of Respiratory Cell And Molecular Biology 2022, 66: 564-576. PMID: 35202558, PMCID: PMC9116356, DOI: 10.1165/rcmb.2021-0356oc.Peer-Reviewed Original ResearchConceptsLung injuryCell hypertrophyAT2 cellsAlveolar epithelial injuryIntegrated stress responseDistal lung epitheliumBleomycin injuryEpithelial injuryLung epitheliumInjuryBarrier restorationHypertrophic growthSmall molecule ISRIBWound healingFacultative progenitorsHypertrophyStress responseAT2BinucleationCellsReinjuryShort termEpitheliumResponse
2020
Profibrotic Activation of Human Macrophages in Systemic Sclerosis
Bhandari R, Ball MS, Martyanov V, Popovich D, Schaafsma E, Han S, ElTanbouly M, Orzechowski NM, Carns M, Arroyo E, Aren K, Hinchcliff M, Whitfield ML, Pioli PA. Profibrotic Activation of Human Macrophages in Systemic Sclerosis. Arthritis & Rheumatology 2020, 72: 1160-1169. PMID: 32134204, PMCID: PMC7329566, DOI: 10.1002/art.41243.Peer-Reviewed Original ResearchMeSH KeywordsAdultAntigens, CDAntigens, Differentiation, MyelomonocyticCell DifferentiationChemokine CCL2Coculture TechniquesFemaleFibroblastsFibrosisHLA-DR AntigensHumansImmunophenotypingInterleukin-6Lectins, C-TypeLeukocytes, MononuclearMacrophage ActivationMacrophagesMaleMannose ReceptorMannose-Binding LectinsMiddle AgedMonocytesPhosphorylationReceptor, Transforming Growth Factor-beta Type IReceptor, Transforming Growth Factor-beta Type IIReceptors, Cell SurfaceRNA, MessengerScleroderma, SystemicSkinSTAT3 Transcription FactorTranscriptomeTransforming Growth Factor betaConceptsPeripheral blood mononuclear cellsSystemic sclerosisSSc patientsBasal conditionsSex-matched healthy controlsSSc fibroblastsSurface markersHealthy donor monocytesBlood mononuclear cellsMediator of fibrosisInflammatory macrophage activationMonocyte-derived macrophagesActivation profilesGrowth factor βFibrotic activationGene expression signaturesDonor monocytesMononuclear cellsProfibrotic activationSkin fibrosisInterleukin-6Healthy controlsSSc skinIndependent cohortMacrophage activation
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
2014
FibronectinEDA Promotes Chronic Cutaneous Fibrosis Through Toll-Like Receptor Signaling
Bhattacharyya S, Tamaki Z, Wang W, Hinchcliff M, Hoover P, Getsios S, White ES, Varga J. FibronectinEDA Promotes Chronic Cutaneous Fibrosis Through Toll-Like Receptor Signaling. Science Translational Medicine 2014, 6: 232ra50. PMID: 24739758, PMCID: PMC4414050, DOI: 10.1126/scitranslmed.3008264.Peer-Reviewed Original ResearchConceptsToll-like receptor 4Endogenous TLR4 ligandsCutaneous fibrosisTLR4 ligandToll-like receptor signalingProgressive autoimmune diseaseLesional skin biopsiesFibronectin extra domain ATreatment of fibrosisTissue repair responseHallmark of sclerodermaPersistent fibroblast activationExtra domain ATLR4 blockadeAutoimmune diseasesChronic conditionsChronic fibrosisReceptor 4Skin biopsiesFibrotic responseOrganotypic skin equivalentsMultiple organsPotent stimulusSclerodermaFibroblast 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