2023
APOBEC-1 deletion enhances cisplatin-induced acute kidney injury
Guo X, Blanc V, Davidson N, Velazquez H, Chen T, Moledina D, Moeckel G, Safirstein R, Desir G. APOBEC-1 deletion enhances cisplatin-induced acute kidney injury. Scientific Reports 2023, 13: 22255. PMID: 38097707, PMCID: PMC10721635, DOI: 10.1038/s41598-023-49575-3.Peer-Reviewed Original Research
2022
Kidney-Targeted Renalase Agonist Prevents Cisplatin-Induced Chronic Kidney Disease by Inhibiting Regulated Necrosis and Inflammation
Guo X, Xu L, Velazquez H, Chen TM, Williams RM, Heller DA, Burtness B, Safirstein R, Desir GV. Kidney-Targeted Renalase Agonist Prevents Cisplatin-Induced Chronic Kidney Disease by Inhibiting Regulated Necrosis and Inflammation. Journal Of The American Society Of Nephrology 2022, 33: 342-356. PMID: 34921111, PMCID: PMC8819981, DOI: 10.1681/asn.2021040439.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsAntineoplastic AgentsCell LineCisplatinCreatinineDisease Models, AnimalGene ExpressionGlomerular Filtration RateHepatitis A Virus Cellular Receptor 1HumansKidneyMiceMice, Inbred C57BLMice, KnockoutMonoamine OxidaseNanocapsulesPeptidesRenal Insufficiency, ChronicConceptsRenal proximal tubulesSingle-cell RNA sequencing analysisMesoscale nanoparticlesFirst doseCisplatin chemotherapyProximal tubulesAgonist peptideInduced Chronic Kidney DiseaseGenetic deletionNeck squamous cell carcinomaRNA sequencing analysisCisplatin-induced AKIKidney-targeted deliveryChronic kidney diseaseDevelopment of CKDSquamous cell carcinomaAdministration of cisplatinPlasma renalaseAdvanced headCell carcinomaInflammatory cytokinesKidney diseasePlasma creatinineSystemic administrationRegulated necrosisRENALASE: DISCOVERY, BIOLOGY, AND THERAPEUTIC APPLICATIONS.
Desir GV. RENALASE: DISCOVERY, BIOLOGY, AND THERAPEUTIC APPLICATIONS. Transactions Of The American Clinical And Climatological Association 2022, 132: 117-125. PMID: 36196172, PMCID: PMC9480547.Peer-Reviewed Original ResearchConceptsChronic kidney diseaseStage renal diseaseCardiovascular complicationsOrgan survivalRenal diseaseAcute injuryKidney diseaseChronic injurySignificant burdenRenalaseStressful stimuliPeptide agonistsNicotinamide adenine dinucleotideMitochondrial functionInjuryEnergy metabolismDiseaseTherapeutic applicationsAdenine dinucleotideCellsComplicationsPathophysiologyAgonistsKidneyPancreas
2019
Regulated necrosis and failed repair in cisplatin-induced chronic kidney disease
Landau SI, Guo X, Velazquez H, Torres R, Olson E, Garcia-Milian R, Moeckel GW, Desir GV, Safirstein R. Regulated necrosis and failed repair in cisplatin-induced chronic kidney disease. Kidney International 2019, 95: 797-814. PMID: 30904067, PMCID: PMC6543531, DOI: 10.1016/j.kint.2018.11.042.Peer-Reviewed Original ResearchConceptsChronic kidney diseaseKidney diseaseKidney injuryCisplatin-induced chronic kidney diseaseCisplatin-induced acute kidney injuryToll-like receptor 2Regulated necrosis pathwaysReversible kidney injuryAcute kidney injuryChronic kidney injuryProximal tubular damageKidney injury markersDoses of cisplatinEvidence of fibrosisMechanisms of progressionEffective chemotherapeutic agentWestern blot analysisFirst doseInjury markersIntraperitoneal cisplatinSignificant nephrotoxicityTubular damageKidney functionSecond doseCisplatin administration
2015
Three-Dimensional Morphology by Multiphoton Microscopy with Clearing in a Model of Cisplatin-Induced CKD
Torres R, Velazquez H, Chang JJ, Levene MJ, Moeckel G, Desir GV, Safirstein R. Three-Dimensional Morphology by Multiphoton Microscopy with Clearing in a Model of Cisplatin-Induced CKD. Journal Of The American Society Of Nephrology 2015, 27: 1102-1112. PMID: 26303068, PMCID: PMC4814184, DOI: 10.1681/asn.2015010079.Peer-Reviewed Original ResearchConceptsAtubular glomeruliGlomerular capsuleRole of fibrosisModel of cisplatinNew mouse modelUseful morphologic informationMultiphoton microscopyTraditional histologic methodsRenal diseaseCisplatin therapyGlomerular volumePathologic changesRenal sectionsCKDMouse modelCisplatin effectCisplatin exposureImportant causeMild increaseCuboidal cellsHistologic methodsMorphologic informationFibrosisTherapyGlomeruli
2014
Renalase Prevents AKI Independent of Amine Oxidase Activity
Wang L, Velazquez H, Moeckel G, Chang J, Ham A, Lee HT, Safirstein R, Desir GV. Renalase Prevents AKI Independent of Amine Oxidase Activity. Journal Of The American Society Of Nephrology 2014, 25: 1226-1235. PMID: 24511138, PMCID: PMC4033373, DOI: 10.1681/asn.2013060665.Peer-Reviewed Original ResearchConceptsIschemic injuryCatecholamine levelsRecombinant renalaseAmine oxidase activityHuman proximal tubular cellsCisplatin-induced AKITreatment of AKIWild-type miceHK-2 cellsProximal tubular cellsOxidase activityKidney injuryRenal injuryC-Jun N-terminal kinaseExtracellular signal-regulated kinaseP38 mitogen-activated protein kinaseToxic injuryRenalase proteinTubular cellsSignal-regulated kinaseIntracellular signaling cascadesRenalaseInjuryMitogen-activated protein kinaseN-terminal kinase