2019
Chapter 83 Adaptive Immunity and Critical Illness
Schulte W, Maerz L, Moeckel G, Bucala R. Chapter 83 Adaptive Immunity and Critical Illness. 2019, 483-487. DOI: 10.1016/b978-0-323-44942-7.00083-2.Peer-Reviewed Original ResearchAcute kidney injuryCritical illnessEnd-stage renal diseaseChronic kidney diseaseChallenging clinical conditionIschemia-reperfusion injuryComplex disease processAdaptive immune systemAKI pathophysiologyKidney injuryHospitalized patientsRenal diseaseKidney diseaseInflammatory processCommon causeClinical conditionsAdaptive immunityLong-term consequencesDisease processImmune systemSubsequent treatmentInjuryIllnessDiseaseCurrent knowledge
2018
The protective role of macrophage migration inhibitory factor in acute kidney injury after cardiac surgery
Stoppe C, Averdunk L, Goetzenich A, Soppert J, Marlier A, Kraemer S, Vieten J, Coburn M, Kowark A, Kim BS, Marx G, Rex S, Ochi A, Leng L, Moeckel G, Linkermann A, El Bounkari O, Zarbock A, Bernhagen J, Djudjaj S, Bucala R, Boor P. The protective role of macrophage migration inhibitory factor in acute kidney injury after cardiac surgery. Science Translational Medicine 2018, 10 PMID: 29769287, DOI: 10.1126/scitranslmed.aan4886.Peer-Reviewed Original ResearchMeSH KeywordsAcute Kidney InjuryAnimalsAntigens, Differentiation, B-LymphocyteAntioxidantsCardiac Surgical ProceduresCell DeathHistocompatibility Antigens Class IIHumansIncidenceInflammationKidneyLipid PeroxidationLipocalin-2Macrophage Migration-Inhibitory FactorsMice, Inbred C57BLOxidative StressProtective AgentsProtein DomainsRecombinant ProteinsReperfusion InjuryRhabdomyolysisConceptsMacrophage migration inhibitory factorAcute kidney injuryRecombinant macrophage migration inhibitory factorIschemia-reperfusion injuryCardiac surgeryMigration inhibitory factorTubular epithelial cellsKidney injuryHigher macrophage migration inhibitory factorIncidence of AKIPathogenesis of AKIUrinary Macrophage Migration Inhibitory FactorExperimental acute kidney injuryExperimental ischemia-reperfusion injuryInhibitory factorMyocardial ischemia-reperfusion injuryOxidative stressMIF serum concentrationsCardiac surgery patientsRenal tubular epithelial cellsConventional cardiac surgeryEpithelial cellsHours of reperfusionSetting of hypoxiaTubular cell injury
2017
MIF-2/D-DT enhances proximal tubular cell regeneration through SLPI- and ATF4-dependent mechanisms
Ochi A, Chen D, Schulte W, Leng L, Moeckel N, Piecychna M, Averdunk L, Stoppe C, Bucala R, Moeckel G. MIF-2/D-DT enhances proximal tubular cell regeneration through SLPI- and ATF4-dependent mechanisms. American Journal Of Physiology. Renal Physiology 2017, 313: f767-f780. PMID: 28539339, PMCID: PMC6148305, DOI: 10.1152/ajprenal.00683.2016.Peer-Reviewed Original ResearchMeSH KeywordsActivating Transcription Factor 4Acute Kidney InjuryAnimalsAntigens, Differentiation, B-LymphocyteApoptosisAutophagyCell HypoxiaCell LineCell ProliferationCyclin D1Disease Models, AnimalEukaryotic Initiation Factor-2FemaleGenetic Predisposition to DiseaseHistocompatibility Antigens Class IIIntramolecular OxidoreductasesKidney Tubules, ProximalMacrophage Migration-Inhibitory FactorsMaleMice, Inbred C57BLMice, KnockoutPhenotypeRegenerationReperfusion InjurySecretory Leukocyte Peptidase InhibitorSignal TransductionTime FactorsTransfectionConceptsMacrophage migration inhibitory factorSecretory leukocyte proteinase inhibitorTubular cell regenerationProximal tubular cellsD-DTCell regenerationTubular cellsIschemic acute kidney injuryIschemia-reperfusion injury modelWild-type control miceMouse proximal tubular cellsAcute kidney injuryIschemia-reperfusion injuryRenal proximal tubular cellsMigration inhibitory factorIntegrated stress responseATF4-dependent mechanismCyclin D1 expressionEukaryotic initiation factorKidney injuryTubular injuryControl miceChemokine receptorsInjury modelInflammatory contextHistones and Neutrophil Extracellular Traps Enhance Tubular Necrosis and Remote Organ Injury in Ischemic AKI
Nakazawa D, Kumar SV, Marschner J, Desai J, Holderied A, Rath L, Kraft F, Lei Y, Fukasawa Y, Moeckel GW, Angelotti ML, Liapis H, Anders HJ. Histones and Neutrophil Extracellular Traps Enhance Tubular Necrosis and Remote Organ Injury in Ischemic AKI. Journal Of The American Society Of Nephrology 2017, 28: 1753-1768. PMID: 28073931, PMCID: PMC5461800, DOI: 10.1681/asn.2016080925.Peer-Reviewed Original ResearchConceptsNeutrophil extracellular trap formationExtracellular trap formationNeutrophil extracellular trapsTubular necrosisExtracellular trapsCell necrosisTubular epithelial cell deathTubular epithelial cell necrosisRemote organ dysfunctionRemote organ injuryRemote organ damageRenal ischemic injuryTubular cell necrosisIschemia-reperfusion injuryRemote tissue injuryAdditive protective effectEpithelial cell necrosisTUNEL-positive cellsEpithelial cell deathNovel molecular targetsTrap formationIschemic AKISevere AKIKidney injuryMultiorgan dysfunction
2013
Macrophage-specific deletion of transforming growth factor-β1 does not prevent renal fibrosis after severe ischemia-reperfusion or obstructive injury
Huen SC, Moeckel GW, Cantley LG. Macrophage-specific deletion of transforming growth factor-β1 does not prevent renal fibrosis after severe ischemia-reperfusion or obstructive injury. American Journal Of Physiology. Renal Physiology 2013, 305: f477-f484. PMID: 23761668, PMCID: PMC3891258, DOI: 10.1152/ajprenal.00624.2012.Peer-Reviewed Original ResearchConceptsGrowth factor-β1Kidney injuryKidney diseaseRenal fibrosisTGF-β1Factor-β1Renal ischemia-reperfusion injuryChronic kidney diseaseIschemia-reperfusion injuryProgressive renal fibrosisMacrophage-specific deletionInnate immune responseMyeloid lineage cellsPersistence of macrophagesLater time pointsTubulointerstitial fibrosisFibrosis markersInterstitial fibrosisMacrophage infiltrationEffective therapyInjury modelObstructive injuryImmune responseTissue scarringFibrosis