2023
Coffee, adenosine, and the liver
Dranoff J. Coffee, adenosine, and the liver. Purinergic Signalling 2023, 20: 21-28. PMID: 37755557, PMCID: PMC10828332, DOI: 10.1007/s11302-023-09968-5.Peer-Reviewed Original Research
2022
Review of existing evidence demonstrates that methotrexate does not cause liver fibrosis
Cheema HI, Haselow D, Dranoff JA. Review of existing evidence demonstrates that methotrexate does not cause liver fibrosis. Journal Of Investigative Medicine 2022, 70: 1452-1460. PMID: 36002175, DOI: 10.1136/jim-2021-002206.Peer-Reviewed Original ResearchConceptsChronic liver diseaseLiver diseaseLiver fibrosisLiver injuryPre-existing chronic liver diseaseNon-alcoholic fatty liver diseaseLong-term methotrexateMeta-analysis portionProgressive liver injurySerial liver biopsiesFatty liver diseaseAdvanced liver fibrosisCare of patientsMetabolic liver diseaseNon-invasive assessmentComprehensive literature searchAssessment of injuryMethotrexate doseAdvanced fibrosisCommon indicationDirect causeLiver biopsyTherapeutic dosesRisk factorsInclusion criteriaCOVID-19 and the liver: a narrative review of the present state of knowledge
Thandassery RB, Dranoff JA, Perisetti A, Taddei T. COVID-19 and the liver: a narrative review of the present state of knowledge. Translational Gastroenterology And Hepatology 2022, 0: 0-0. PMID: 36300154, PMCID: PMC9468988, DOI: 10.21037/tgh-20-243.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsChronic liver diseaseLiver diseaseLiver injuryComorbid conditionsAcute respiratory distress syndromeDirect viral cytotoxicityNon-immunosuppressed patientsAdvanced liver diseaseLiver function testsThird of patientsEpithelial cellsRespiratory distress syndromeResolution of diseaseResolution of illnessOngoing pandemicNovel corona virus diseaseType 2 pneumocytesCOVID-19Biliary epithelial cellsGastrointestinal epithelial cellsCorona Virus DiseaseLiver dysfunctionDistress syndromeFunction testsUninterrupted careShort‐Term Safety of Repeated Acetaminophen Use in Patients With Compensated Cirrhosis
McGill MR, James LP, McCullough SS, Moran JH, Mathews SE, Peterson EC, Fleming DP, Tripod ME, Vazquez JH, Kennon‐McGill S, Spencer HJ, Dranoff JA. Short‐Term Safety of Repeated Acetaminophen Use in Patients With Compensated Cirrhosis. Hepatology Communications 2022, 6: 361-373. PMID: 34558847, PMCID: PMC8793989, DOI: 10.1002/hep4.1810.Peer-Reviewed Original ResearchConceptsAPAP-protein adductsAcetaminophen useCirrhosis groupClinical outcomesDay 5Sensitive biomarkerAdverse clinical outcomesShort-term administrationCompensated cirrhosisLiver injuryAPAP administrationLiver damagePK analysisCurrent guidelinesStudy initiationCirrhosisTerm safetyDay 1Day 3APAP metabolitesHigh dosesPatientsPilot studyAPAPLonger treatment
2020
The Role of Sirtuin 3 in Radiation-Induced Long-Term Persistent Liver Injury
LoBianco FV, Krager KJ, Carter GS, Alam S, Yuan Y, Lavoie EG, Dranoff JA, Aykin-Burns N. The Role of Sirtuin 3 in Radiation-Induced Long-Term Persistent Liver Injury. Antioxidants 2020, 9: 409. PMID: 32403251, PMCID: PMC7278565, DOI: 10.3390/antiox9050409.Peer-Reviewed Original ResearchLong-term liver injuryLiver injurySirtuin 3Chronic responsesRole of SIRT3Mature bile ductsPersistent liver injuryAcute liver injuryTotal body irradiationUse of radiotherapyFibrotic factorsInflammatory infiltrationBody irradiationBile ductInflammatory chemokinesMale miceGy radiationHigher DNA damageMajor mitochondrial deacetylaseAbsence of SIRT3Mitochondrial deacetylaseInjuryGlutathione peroxidaseMouse liverGy IR
2017
An Elf2-like transcription factor acts as repressor of the mouse ecto-5′-nucleotidase gene expression in hepatic myofibroblasts
Fausther M, Lavoie EG, Goree JR, Dranoff JA. An Elf2-like transcription factor acts as repressor of the mouse ecto-5′-nucleotidase gene expression in hepatic myofibroblasts. Purinergic Signalling 2017, 13: 417-428. PMID: 28667437, PMCID: PMC5714833, DOI: 10.1007/s11302-017-9570-7.Peer-Reviewed Original ResearchConceptsLiver myofibroblastsHepatic fibrosisChronic liver injuryNon-parenchymal liver cellsTissue repair processEffector cellsLiver injuryLiver fibrosisHepatic myofibroblastsMyofibroblast functionContractile propertiesPathological wound healingExtracellular adenosineMyofibroblastsImportant mediatorPromoter transcriptional activityFibrosisLiver cellsGene expressionWound healingEndogenous moleculesImportant regulatorHeterogeneous populationLocal microenvironmentFactor acts
2016
Sortilin Deficiency Reduces Ductular Reaction, Hepatocyte Apoptosis, and Liver Fibrosis in Cholestatic-Induced Liver Injury
Hubel E, Saroha A, Park WJ, Pewzner-Jung Y, Lavoie EG, Futerman AH, Bruck R, Fishman S, Dranoff JA, Shibolet O, Zvibel I. Sortilin Deficiency Reduces Ductular Reaction, Hepatocyte Apoptosis, and Liver Fibrosis in Cholestatic-Induced Liver Injury. American Journal Of Pathology 2016, 187: 122-133. PMID: 27842214, DOI: 10.1016/j.ajpath.2016.09.005.Peer-Reviewed Original ResearchConceptsBile duct ligationSerum IL-6IL-6Hepatocyte apoptosisWT miceLiver fibrosisCholangiocyte proliferationHepatic stellate cell activationCholestatic liver damageIL-6 neutralizationStellate cell activationHepatic stellate cellsASMase activityCarbon tetrachloride treatmentCarbon tetrachloride modelSortilin deficiencyHepatic inflammationLiver inflammationHepatocellular injuryLiver injuryLiver damageHepatic fibrosisBiliary damageDuctular reactionDuct ligation
2013
Contribution of Myofibroblasts of Different Origins to Liver Fibrosis
Fausther M, Lavoie EG, Dranoff JA. Contribution of Myofibroblasts of Different Origins to Liver Fibrosis. Current Pathobiology Reports 2013, 1: 225-230. PMID: 23997993, PMCID: PMC3755779, DOI: 10.1007/s40139-013-0020-0.Peer-Reviewed Original ResearchHepatic fibrosisLiver fibrosisLiver myofibroblastsContribution of myofibroblastsProgressive liver fibrosisPrimary effector cellsTissue repair responseExtracellular matrix accumulationMajor fibrogenic cellsLiver failureLiver injuryEffector cellsCurrent therapiesAntifibrotic therapyCommon causeScar formationFibrogenic cellsFibrosisMatrix accumulationExtracellular matrix synthesisMyofibroblastsPromising targetWound healingRepair responseTherapy
2009
Transcriptional regulation of IL-6 in bile duct epithelia by extracellular ATP
Yu J, Sheung N, Soliman EM, Spirli C, Dranoff JA. Transcriptional regulation of IL-6 in bile duct epithelia by extracellular ATP. AJP Gastrointestinal And Liver Physiology 2009, 296: g563-g571. PMID: 19136380, PMCID: PMC2660176, DOI: 10.1152/ajpgi.90502.2008.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAnimalsAntibodiesBile DuctsCalciumCalcium SignalingCell Line, TransformedCell Line, TumorCyclic AMPEpithelial CellsExtracellular SpaceFibroblastsHumansImmunoblottingInterleukin-6MaleMutagenesis, Site-DirectedPromoter Regions, GeneticRatsRats, Sprague-DawleyReceptors, Purinergic P2Response ElementsRNA, MessengerSignal TransductionTranscriptional ActivationConceptsBile duct epitheliumIL-6IL-6 transcriptionDuct epitheliumLiver injuryCAMP response elementP2Y11 receptorInflammatory cytokines IL-6Extracellular ATPIL-6 upregulationUse of agonistsRat bile duct epitheliaCytokines IL-6IL-6 releaseIL-6 promoter activityIL-6 mRNAExtracellular ATP actsCalcium agonistP2Y receptorsPharmacological profileHepatic responseCalcium-dependent fashionExtracellular nucleotidesCytosolic calciumPurinergic signals