2024
Adamts1 and Cyst Expansion in Polycystic Kidney Disease.
Kakade V, Akman Z, Motrapu M, Cassini M, Xu L, Moeckel G, Somlo S, Cantley L. Adamts1 and Cyst Expansion in Polycystic Kidney Disease. Journal Of The American Society Of Nephrology 2024 PMID: 39514301, DOI: 10.1681/asn.0000000557.Peer-Reviewed Original ResearchAutosomal dominant polycystic kidney diseasePolycystic kidney diseaseKidney diseaseLoss of Pkd1Cyst growthInterstitial macrophage accumulationDominant polycystic kidney diseaseInterstitial mononuclear cellsReduced cyst growthDetectable phenotypeMembrane remodelingMotif 1Progressive cyst growthIsoforms of versicanSimultaneous deletionPKD2 geneTubular basement membraneDisintegrin and metalloproteinaseRNA sequencingBasement membrane remodelingPKD1Thrombospondin motifs 1Cystic enlargementMacrophage accumulationCystic dilatation
2023
The ASSESS-AKI Study found urinary epidermal growth factor is associated with reduced risk of major adverse kidney events
Menez S, Wen Y, Xu L, Moledina D, Thiessen-Philbrook H, Hu D, Obeid W, Bhatraju P, Ikizler T, Siew E, Chinchilli V, Garg A, Go A, Liu K, Kaufman J, Kimmel P, Himmelfarb J, Coca S, Cantley L, Parikh C. The ASSESS-AKI Study found urinary epidermal growth factor is associated with reduced risk of major adverse kidney events. Kidney International 2023, 104: 1194-1205. PMID: 37652206, PMCID: PMC10840723, DOI: 10.1016/j.kint.2023.08.007.Peer-Reviewed Original ResearchConceptsMajor adverse kidney eventsUEGF/CrUrinary epidermal growth factorAdverse kidney eventsChronic kidney diseaseEpidermal growth factorKidney eventsKidney failureEGF expressionUrinary EGF/CrAcute Kidney Injury studyGrowth factorIschemia-reperfusion injuryProportional hazards regressionTubular healthKidney atrophyObservational cohortHospitalized participantsTubular functionClinical findingsHazards regressionKidney diseaseClinical variablesProgressive atrophyUrinary EGFThe Lymphatic System in Kidney Disease
Baker M, Cantley L. The Lymphatic System in Kidney Disease. Kidney360 2023, 4: e841-e850. PMID: 37019177, PMCID: PMC10371377, DOI: 10.34067/kid.0000000000000120.Peer-Reviewed Original ResearchConceptsKidney diseaseLymphatic systemSetting of AKIKidney allograft rejectionNormal kidney functionImmune response modulationAllograft rejectionLymph nodesInflammatory infiltrateKidney functionImmune cellsTissue edemaNovel therapiesImmune surveillanceNumerous disease statesSystemic circulationFluid removalKidney tissueResident cellsTherapeutic potentialSurveillance cellsAKIDisease statesKidneyResponse modulation
2022
Multi-Scalar Data Integration Links Glomerular Angiopoietin-Tie Signaling Pathway Activation With Progression of Diabetic Kidney Disease
Liu J, Nair V, Zhao Y, Chang D, Limonte C, Bansal N, Fermin D, Eichinger F, Tanner E, Bellovich K, Steigerwalt S, Bhat Z, Hawkins J, Subramanian L, Rosas S, Sedor J, Vasquez M, Waikar S, Bitzer M, Pennathur S, Brosius F, De Boer I, Chen M, Kretzler M, Ju W, Group F, Knight R, Lecker S, Stillman I, Bogen S, Amodu A, Ilori T, Maikhor S, Schmidt I, Beck L, Henderson J, Onul I, Verma A, Waikar S, McMahon G, Valerius M, Waikar S, Weins A, Colona M, Greka A, Hacohen N, Hoover P, Marshall J, Aulisio M, Chen Y, Janowczyk A, Jayapandian C, Viswanathan V, Bush W, Crawford D, Madabhushi A, Bush L, Cooperman L, Gonzalez-Vicente A, Herlitz L, Jolly S, Nguyen J, O’toole J, Palmer E, Poggio E, Sedor J, Sendrey D, Spates-Harden K, Taliercio J, Bjornstad P, Pyle L, Vinovskis C, Appelbaum P, Barasch J, Bomback A, Canetta P, D’Agati V, Kiryluk K, Kudose S, Mehl K, Shang N, Balderes O, Bansal S, Alexandrov T, Rennke H, El-Achkar T, Barwinska D, Bledsoe S, Borner K, Bueckle A, Cheng Y, Dagher P, Dunn K, Eadon M, Ferkowicz M, Herr B, Kelly K, Ferreira R, Quardokus E, Record E, Rivera M, Su J, Sutton T, Williams J, Winfree S, Menez S, Parikh C, Rosenberg A, Corona-Villalobos C, Wen Y, Johansen C, Rosas S, Roy N, Sun J, Williams M, Azeloglu E, Hansen J, He C, Iyengar R, Xiong Y, Prasad P, Srivastava A, Madhavan S, Parikh S, Rovin B, Shapiro J, Anderton C, Lukowski J, Pasa-Tolic L, Velickovic D, Oliver G, Ardayfio J, Bebiak J, Brown K, Campbell T, Campbell C, Hayashi L, Jefferson N, Roberts G, Saul J, Shpigel A, Stutzke C, Koewler R, Pinkeney R, Sealfon R, Troyanskaya O, Wong A, Tuttle K, Pollack A, Goltsev Y, Lucarelli N, Sarder P, Lake B, Zhang K, Boada P, Laszik Z, Nolan G, Anjani K, Sarwal M, Mukatash T, Sigdel T, Alloway R, Burg A, Lee P, Rike A, Shi T, Woodle E, Balis U, Blanc V, Conser N, Eddy S, Frey R, He Y, Hodgin J, Kretzler M, Lienczewski C, Luo J, Mariani L, Menon R, Otto E, Schaub J, Steck B, Elder M, Gilliam M, Hall D, Murugan R, Palevsky P, Randhawa P, Rosengart M, Tublin M, Vita T, Kellum J, Winters J, Alpers C, Berglund A, Blank K, Carson J, Daniel S, De Boer I, Dighe A, Dowd F, Grewenow S, Himmelfarb J, Hoofnagle A, Limonte C, McClelland R, Mooney S, Rezaei K, Shankland S, Snyder J, Wang R, Wilcox A, Williams K, Park C, Bansal S, Montellano R, Pamreddy A, Sharma K, Venkatachalam M, Ye H, Zhang G, Hedayati S, Kermani A, Lee S, Lu C, Miller R, Moe O, Patel J, Pillai A, Sambandam K, Torrealba J, Toto R, Vazquez M, Wang N, Wen N, Zhang D, Park H, Caprioli R, Patterson N, Sharman K, Spraggins J, Van de Plas R, Basta J, Diettman S, Gaut J, Jain S, Rauchman M, Vijayan A, Cantley L, Kakade V, Moledina D, Shaw M, Ugwuowo U, Wilson F, Arora T, Bitzer M, Brosius F, Gadegbeku C, Gipson D, Hawkins J, Kretzler M, Lienczewski C, Pennathur S, Troost J, Gadegbeku C, Bellovich K, Bhat Z, Massengill S, Perumal K. Multi-Scalar Data Integration Links Glomerular Angiopoietin-Tie Signaling Pathway Activation With Progression of Diabetic Kidney Disease. Diabetes 2022, 71: 2664-2676. PMID: 36331122, PMCID: PMC9750948, DOI: 10.2337/db22-0169.Peer-Reviewed Original ResearchConceptsEnd-stage kidney diseaseDiabetic kidney diseaseKidney diseaseAngiopoietin-2ANGPT2 levelsChinese cohort studyChronic kidney diseaseGlomerular filtration rateCardiovascular Health StudyPlasma angiopoietin-2High receptor expressionStandard clinical parametersSignaling Pathway ActivationPathway scoresThree-marker panelKidney outcomesCohort studyComposite outcomeClinical parametersEndothelial biomarkersFiltration rateReceptor expressionPrognostic biomarkerClinical phenotypingHealth StudyImmune-mediated tubule atrophy promotes acute kidney injury to chronic kidney disease transition
Xu L, Guo J, Moledina DG, Cantley LG. Immune-mediated tubule atrophy promotes acute kidney injury to chronic kidney disease transition. Nature Communications 2022, 13: 4892. PMID: 35986026, PMCID: PMC9391331, DOI: 10.1038/s41467-022-32634-0.Peer-Reviewed Original ResearchConceptsAcute kidney injuryKidney injuryT cellsChronic kidney disease transitionIschemia-reperfusion kidney injuryKidney disease transitionChronic kidney diseaseDepletion of neutrophilsGlomerular filtration rateT cell recruitmentTubular cell lossMacrophage persistenceProinflammatory neutrophilsTubule damageKidney atrophyContralateral kidneyNeutrophil numbersContralateral nephrectomyKidney diseaseTubule atrophyFiltration rateCell recruitmentMore macrophagesDay 14Day 5
2021
Cadherin-11, Sparc-related modular calcium binding protein-2, and Pigment epithelium-derived factor are promising non-invasive biomarkers of kidney fibrosis
Schmidt I, Colona M, Kestenbaum B, Alexopoulos L, Palsson R, Srivastava A, Liu J, Stillman I, Rennke H, Vaidya V, Wu H, Humphreys B, Waikar S, Knight R, Lecker S, Stillman I, Bogen S, Amodu A, Ilori T, Maikhor S, Schmidt I, Beck L, Henderson J, Onul I, Verma A, McMahon G, Valerius M, Waikar S, Weins A, Colona M, Greka A, Hacohen N, Hoover P, Marshall J, Aulisio M, Chen Y, Janowczyk A, Jayapandian C, Viswanathan V, Bush W, Crawford D, Madabhushi A, Bush L, Cooperman L, Gonzalez-Vicente A, Herlitz L, Jolly S, Nguyen J, O’toole J, Palmer E, Poggio E, Sedor J, Sendrey D, Spates-Harden K, Taliercio J, Bjornstad P, Pyle L, Vinovskis C, Appelbaum P, Balderes O, Barasch J, Bomback A, Canetta P, D’Agati V, Kiryluk K, Kudose S, Mehl K, Shang N, Bansal S, Alexandrov T, Rennke H, El-Achkar T, Barwinska D, Bledso S, Borner K, Bueckle A, Cheng Y, Dagher P, Dunn K, Eadon M, Ferkowicz M, Herr B, Kelly K, Ferreira R, Quardokus E, Record E, Rivera M, Su J, Sutton T, Williams J, Winfree S, Jain Y, Menez S, Parikh C, Rosenberg A, Corona-Villalobos C, Wen Y, Johansen C, Rosas S, Roy N, Sun J, Williams M, Azeloglu E, Hansen J, He C, Iyengar R, Xiong Y, Prasad P, Srivastava A, Madhavan S, Parikh S, Rovin B, Shapiro J, Anderton C, Lukowski J, Pasa-Tolic L, Velickovic D, Oliver G, Ardayfio J, Bebiak J, Brown K, Campbell T, Campbell C, Hayashi L, Jefferson N, Roberts G, Saul J, Shpigel A, Stutzke C, Koewler R, Pinkeney R, Sealfon R, Troyanskaya O, Wong A, Tuttle K, Pollack A, Goltsev Y, Ginley B, Lucarelli N, Lutnick B, Sarder P, Lake B, Zhang K, Boada P, Laszik Z, Nolan G, Anjani K, Sarwal M, Mukatash T, Sigdel T, Alloway R, Burg A, Lee P, Rike A, Shi T, Woodle E, Ascani H, Balis U, Blanc V, Conser N, Eddy S, Frey R, He Y, Hodgin J, Kretzler M, Lienczewski C, Luo J, Mariani L, Menon R, Otto E, Schaub J, Steck B, Elder M, Gilliam M, Hall D, Murugan R, Palevsky P, Randhawa P, Rosengart M, Tublin M, Vita T, Winters J, Kellum J, Alpers C, Berglund A, Berry B, Blank K, Carson J, Daniel S, De Boer I, Dighe A, Dowd F, Grewenow S, Himmelfarb J, Hoofnagle A, Limonte C, McClelland R, Mooney S, Rezaei K, Shankland S, Snyder J, Wang R, Wilcox A, Williams K, Park C, Bansal S, Montellano R, Pamreddy A, Sharma K, Venkatachalam M, Ye H, Zhang G, Basit M, Hedayati S, Kermani A, Lee S, Lu C, Miller R, Moe O, Patel J, Pillai A, Sambandam K, Torrealba J, Toto R, Vazquez M, Wang N, Wen N, Zhang D, Park H, Caprioli R, Patterson N, Sharman K, Spraggins J, Van de Plas R, Basta J, Diettman S, Gaut J, Jain S, Rauchman M, Vijayan A, Cantley L, Kakade V, Moledina D, Shaw M, Ugwuowo U, Wilson F, Arora T. Cadherin-11, Sparc-related modular calcium binding protein-2, and Pigment epithelium-derived factor are promising non-invasive biomarkers of kidney fibrosis. Kidney International 2021, 100: 672-683. PMID: 34051265, PMCID: PMC8384690, DOI: 10.1016/j.kint.2021.04.037.Peer-Reviewed Original ResearchConceptsPigment epithelium-derived factorBoston Kidney Biopsy CohortEnd-stage kidney diseaseChronic kidney diseaseModular calcium binding protein-2Seattle Kidney StudyKidney fibrosisKidney diseaseEpithelium-derived factorNon-invasive biomarkersBiopsy cohortTubular atrophyInterstitial fibrosisKidney StudyBinding protein 2Cox proportional hazards regression modelHuman chronic kidney diseaseProportional hazards regression modelsUrine biomarker levelsCohort of patientsHazards regression modelsPromising non-invasive biomarkerIndependent prospective cohortsAssociation of biomarkersNon-invasive assessment
2020
Polycystin 2 is increased in disease to protect against stress-induced cell death
Brill AL, Fischer TT, Walters JM, Marlier A, Sewanan LR, Wilson PC, Johnson EK, Moeckel G, Cantley LG, Campbell SG, Nerbonne JM, Chung HJ, Robert ME, Ehrlich BE. Polycystin 2 is increased in disease to protect against stress-induced cell death. Scientific Reports 2020, 10: 386. PMID: 31941974, PMCID: PMC6962458, DOI: 10.1038/s41598-019-57286-x.Peer-Reviewed Original ResearchConceptsPolycystin-2General cellular homeostasisCell deathStress-induced cell deathPathological cell deathAutosomal dominant polycystic kidney diseaseEndoplasmic reticulum membraneCellular homeostasisCellular stressPrimary ciliaUbiquitous expressionExpression changesCell stressReticulum membraneTransient receptor potential cation channelHuman diseasesMultiple tissuesEndogenous roleDominant polycystic kidney diseaseTissue typesCation channelsPolycystic kidney diseaseDifferent pathological statesMultiple diseasesKidney disease
2019
Development of a 2-dimensional atlas of the human kidney with imaging mass cytometry
Singh N, Avigan ZM, Kliegel JA, Shuch BM, Montgomery RR, Moeckel GW, Cantley LG. Development of a 2-dimensional atlas of the human kidney with imaging mass cytometry. JCI Insight 2019, 4: e129477. PMID: 31217358, PMCID: PMC6629112, DOI: 10.1172/jci.insight.129477.Peer-Reviewed Original ResearchConceptsCell typesIndividual cell typesCritical baseline dataRenal cell typesMass cytometryQuantitative atlasNormal human samplesHuman kidneyRelative abundanceDevelopment of therapiesHuman kidney diseaseKidney diseaseMetal-conjugated antibodiesQuantitative interrogationScarce samplesMachine-learning pipelineDiscovery purposesFuture quantitative analysisNovel abnormalityNormal human kidneySingle tissue sectionHuman samplesRenal biopsyImmune cellsCellsUrine TNF-α and IL-9 for clinical diagnosis of acute interstitial nephritis
Moledina DG, Wilson FP, Pober JS, Perazella MA, Singh N, Luciano RL, Obeid W, Lin H, Kuperman M, Moeckel GW, Kashgarian M, Cantley LG, Parikh CR. Urine TNF-α and IL-9 for clinical diagnosis of acute interstitial nephritis. JCI Insight 2019, 4: e127456. PMID: 31092735, PMCID: PMC6542610, DOI: 10.1172/jci.insight.127456.Peer-Reviewed Original ResearchConceptsAcute interstitial nephritisAcute kidney diseasePrebiopsy diagnosisKidney biopsyKidney diseaseIL-9AIN diagnosisUrine TNFInterstitial nephritisSpecific T cell subsetsAcute tubular injuryDiabetic kidney diseaseIL-9 levelsTNF-α levelsT cell subsetsAddition of biomarkersPlasma cytokinesCytokine levelsTubular injuryHighest quartileMultivariable analysisCell subsetsUrinary TNFBlood eosinophilsGlomerular disease
2018
Mcp1 Promotes Macrophage-Dependent Cyst Expansion in Autosomal Dominant Polycystic Kidney Disease
Cassini MF, Kakade VR, Kurtz E, Sulkowski P, Glazer P, Torres R, Somlo S, Cantley LG. Mcp1 Promotes Macrophage-Dependent Cyst Expansion in Autosomal Dominant Polycystic Kidney Disease. Journal Of The American Society Of Nephrology 2018, 29: 2471-2481. PMID: 30209078, PMCID: PMC6171277, DOI: 10.1681/asn.2018050518.Peer-Reviewed Original ResearchConceptsAutosomal dominant polycystic kidney diseaseSingle knockout miceTubular cell injuryDominant polycystic kidney diseaseCyst growthPolycystic kidney diseaseKidney diseaseCell injuryMonocyte chemoattractant protein-1Alternative activation phenotypeChemoattractant protein-1Double knockout miceOrthologous mouse modelCell proliferative rateRenal functionMacrophage accumulationMacrophage infiltrationReceptor CCR2Cystic dilationMacrophage numbersFunctional improvementOxidative DNA damageMouse modelActivation phenotypeCyst expansion
2015
Development of a Targeted Urine Proteome Assay for kidney diseases
Cantley LG, Colangelo CM, Stone KL, Chung L, Belcher J, Abbott T, Cantley JL, Williams KR, Parikh CR. Development of a Targeted Urine Proteome Assay for kidney diseases. Proteomics Clinical Applications 2015, 10: 58-74. PMID: 26220717, PMCID: PMC5003777, DOI: 10.1002/prca.201500020.Peer-Reviewed Original ResearchConceptsKidney diseaseUrinary proteinGraft functionImmediate graft functionDelayed graft functionKidney transplant patientsMultiple kidney diseasesTransplant patientsKidney transplantClinical relevancePotential biomarkersUrine proteomeDiseaseAvailable biofluidBiomarkersPatientsProtein biomarkersAssaysSingle assayProteome changesHuman urineQuantifiable proteinsTransplantProteinPeptidesThe Role of p204 in Kidney Injury
Marlier A, Huen S, Lengyel P, Cantley L. The Role of p204 in Kidney Injury. The FASEB Journal 2015, 29 DOI: 10.1096/fasebj.29.1_supplement.807.1.Peer-Reviewed Original ResearchAcute kidney injuryIschemia-reperfusion injuryRenal ischemia-reperfusion injuryChronic kidney diseaseKidney injuryPeak serum creatinine levelClassical inflammatory stimuliSerum creatinine levelsTubular cell necrosisCD45-positive cellsWhole-body knockoutAKI biomarkersCreatinine levelsKidney diseaseCHI3L1 expressionKidney ischemiaKidney fibrosisInflammasome activationInflammatory stimuliReparative phasePositive cellsTherapeutic targetBone marrowWT controlsCell necrosis
2011
Macrophages Promote Cyst Growth in Polycystic Kidney Disease
Karihaloo A, Koraishy F, Huen SC, Lee Y, Merrick D, Caplan MJ, Somlo S, Cantley LG. Macrophages Promote Cyst Growth in Polycystic Kidney Disease. Journal Of The American Society Of Nephrology 2011, 22: 1809-1814. PMID: 21921140, PMCID: PMC3187181, DOI: 10.1681/asn.2011010084.Peer-Reviewed Original ResearchConceptsPolycystic kidney diseaseCyst-lining cellsKidney diseaseCyst growthPkd1-deficient cellsContribution of inflammationMacrophage-depleted miceVehicle-treated controlsPostnatal day 10Renal functionInflammatory componentIschemic injuryOrthologous modelCre miceCystic areasLiposomal clodronateCyst progressionRenal parenchymaCystic indexTubular cellsDay 10Therapeutic potentialDay 24Macrophage migrationMacrophages