2024
Renalase peptides reduce pancreatitis severity in mice
Kolodecik T, Guo X, Shugrue C, Guo X, Desir G, Wen L, Gorelick F. Renalase peptides reduce pancreatitis severity in mice. AJP Gastrointestinal And Liver Physiology 2024, 327: g466-g480. PMID: 39010833, DOI: 10.1152/ajpgi.00143.2024.Peer-Reviewed Original ResearchAcute pancreatitisRecombinant renalaseProsurvival propertiesSeverity of acute pancreatitisModel of acute pancreatitisAcute inflammatory injuryClinically relevant modelAnti-inflammatoryHistological tissue injuryPost-ERCPCerulein modelCerulein-inducedInitial dosePancreatitis severityPreclinical modelsImmunohistochemical markersQuantify inflammationInflammatory changesMale micePancreatitisMacrophage populationsTissue injuryCerulein pancreatitisTherapeutic effectRenalase
2017
The serum protein renalase reduces injury in experimental pancreatitis
Kolodecik TR, Reed AM, Date K, Shugrue C, Patel V, Chung SL, Desir GV, Gorelick FS. The serum protein renalase reduces injury in experimental pancreatitis. Journal Of Biological Chemistry 2017, 292: 21047-21059. PMID: 29042438, PMCID: PMC5743078, DOI: 10.1074/jbc.m117.789776.Peer-Reviewed Original ResearchMeSH KeywordsAcinar CellsAnimalsAnti-Inflammatory Agents, Non-SteroidalBiomarkersCalcium SignalingCarbacholCell LineCeruletideEnzyme ActivationFluorescent Antibody Technique, IndirectGene Expression Regulation, EnzymologicHumansHypertensionLigandsMembrane Transport ModulatorsMiceMice, KnockoutMonoamine OxidasePancreasPancreatitisPlasma Membrane Calcium-Transporting ATPasesRecombinant Fusion ProteinsTaurolithocholic AcidConceptsRecombinant human renalaseAcute pancreatitisAcute injuryCell injuryAcinar cell injuryHuman acinar cellsCytosolic calcium levelsPlasma membrane calcium ATPasePancreatitis onsetIschemic injuryWT micePathological increaseHistological changesProtective effectSevere diseaseMurine modelMembrane calcium ATPasePancreatitisCalcium levelsExperimental pancreatitisBile acidsTissue damageRenalaseInjuryCerulein model