2024
The effect of adrenalectomy on bleomycin-induced pulmonary fibrosis in mice
McGovern J, Perry C, Ghincea A, Herzog E, Shao S, Sun H. The effect of adrenalectomy on bleomycin-induced pulmonary fibrosis in mice. American Journal Of Physiology - Lung Cellular And Molecular Physiology 2024 PMID: 39470613, DOI: 10.1152/ajplung.00062.2024.Peer-Reviewed Original ResearchLung fibrosisSurgical adrenalectomyBronchoalveolar lavageLung tissueBleomycin-induced pulmonary fibrosisAlpha-smooth muscle actinModel of lung fibrosisBleomycin model of lung fibrosisProgressive lung fibrosisLimited treatment optionsSmooth muscle actinWild type miceEffects of adrenalectomyProduction of catecholaminesDecrease of lymphocytesAdrenal ablationAldosterone levelsBleomycin administrationBleomycin modelSham surgeryAld levelsLung remodelingPulmonary fibrosisType miceAdrenal gland
2023
α1 Adrenoreceptor antagonism mitigates extracellular mitochondrial DNA accumulation in lung fibrosis models and in patients with idiopathic pulmonary fibrosis
Ishikawa G, Peng X, McGovern J, Woo S, Perry C, Liu A, Yu S, Ghincea A, Kishchanka A, Fiorini V, Hu B, Sun Y, Sun H, Ryu C, Herzog E. α1 Adrenoreceptor antagonism mitigates extracellular mitochondrial DNA accumulation in lung fibrosis models and in patients with idiopathic pulmonary fibrosis. American Journal Of Physiology - Lung Cellular And Molecular Physiology 2023, 324: l639-l651. PMID: 36648147, PMCID: PMC10110730, DOI: 10.1152/ajplung.00119.2022.Peer-Reviewed Original ResearchConceptsAdrenergic nerve supplyIdiopathic pulmonary fibrosisΑ1 adrenoreceptorsPulmonary fibrosisNerve supplyCultured normal human lung fibroblastsInnate immune ligandsLung fibrosis modelNormal human lung fibroblastsSmooth muscle actinHuman lung fibroblastsAdrenal resectionAdrenoreceptor antagonismExtracellular mtDNAIPF cohortImproved survivalΑ1-adrenoreceptor antagonistsLung fibrosisAdrenal sourceFibroblast accumulationAdrenoreceptor antagonistBleomycin modelFibrosis modelLung fibrogenesisMouse model
2022
Ameliorating Fibrosis in Murine and Human Tissues with END55, an Endostatin-Derived Fusion Protein Made in Plants
Mlakar L, Garrett S, Watanabe T, Sanderson M, Nishimoto T, Heywood J, Helke K, Pilewski J, Herzog E, Feghali-Bostwick C. Ameliorating Fibrosis in Murine and Human Tissues with END55, an Endostatin-Derived Fusion Protein Made in Plants. Biomedicines 2022, 10: 2861. PMID: 36359382, PMCID: PMC9687961, DOI: 10.3390/biomedicines10112861.Peer-Reviewed Original ResearchAnti-fibrotic effectsIdiopathic pulmonary fibrosisSystemic sclerosisPulmonary fibrosisLung fibrosisMouse modelSignificant anti-fibrotic effectEffective anti-fibrotic therapiesBleomycin mouse modelLungs of patientsAnti-fibrotic therapiesPrevention of skinSecond mouse modelCollagen XVIII/endostatinGrowth factor-β1Matrix-degrading enzymesLung transplantationSignificant morbidityHuman tissuesLung diseaseHealth burdenEffective treatmentFactor-β1Organ fibrosisFibrosis
2017
Thyroid 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 Research
2014
Chitinase 3–Like 1 Suppresses Injury and Promotes Fibroproliferative Responses in Mammalian Lung Fibrosis
Zhou Y, Peng H, Sun H, Peng X, Tang C, Gan Y, Chen X, Mathur A, Hu B, Slade MD, Montgomery RR, Shaw AC, Homer RJ, White ES, Lee CM, Moore MW, Gulati M, Lee CG, Elias JA, Herzog EL. Chitinase 3–Like 1 Suppresses Injury and Promotes Fibroproliferative Responses in Mammalian Lung Fibrosis. Science Translational Medicine 2014, 6: 240ra76. PMID: 24920662, PMCID: PMC4340473, DOI: 10.1126/scitranslmed.3007096.Peer-Reviewed Original ResearchConceptsIdiopathic pulmonary fibrosisCHI3L1 levelsChitinase 3Lungs of patientsAlternative macrophage activationLevel of apoptosisAcute exacerbationFibroproliferative repairLung transplantationDisease exacerbationInjury phaseAmbulatory patientsEpithelial injuryPulmonary fibrosisIPF populationLung fibrosisMacrophage accumulationCHI3L1 expressionFibrotic phaseDisease progressionProfibrotic roleFibroproliferative responseMacrophage activationMyofibroblast transformationProtective rolePulmonary Fibrosis
Murray L, Homer R, Gulati M, Herzog E. Pulmonary Fibrosis. 2014, 2636-2653. DOI: 10.1016/b978-0-12-386456-7.05307-7.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsInterstitial lung diseasePulmonary fibrosisLung fibrosisConnective tissue disease-related interstitial lung diseaseIdiopathic pulmonary fibrosisSalient clinical featuresDistinctive pathological featuresWound healing responseClinical featuresChronic injuryLung diseasePathological featuresCirculating BiomarkersInflammatory responseLung parenchymaCertain therapiesPathogenic mechanismsScar tissueClinical monitoringFibrosisHealing responseFatal natureGenetic formsDiseasePotential role
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 severity