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Arterial inflammaging drives vascular calcification in children on dialysis

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dc.contributor.authorSanchis, Pilar
dc.contributor.authorHo, Chin Yee
dc.contributor.authorLiu, Yiwen
dc.contributor.authorBeltran, Leilani E
dc.contributor.authorAhmad, Sadia
dc.contributor.authorJacob, Anne P
dc.contributor.authorFurmanik, Malgorzata
dc.contributor.authorLaycock, Joanne
dc.contributor.authorLong, David A
dc.contributor.authorShroff, Rukshana
dc.contributor.authorShanahan, Catherine M
dc.date.accessioned2024-09-10T13:07:09Z
dc.date.available2024-09-10T13:07:09Z
dc.date.issued2019-04
dc.description.abstractChildren on dialysis have a cardiovascular mortality risk equivalent to older adults in the general population, and rapidly develop medial vascular calcification, an age-associated pathology. We hypothesized that premature vascular ageing contributes to calcification in children with advanced chronic kidney disease (CKD). Vessels from children with Stage 5 CKD with and without dialysis had evidence of increased oxidative DNA damage. The senescence markers p16 and p21 were also increased in vessels from children on dialysis. Treatment of vessel rings ex vivo with calcifying media increased oxidative DNA damage in vessels from children with Stage 5 CKD, but not in those from healthy controls. Vascular smooth muscle cells cultured from children on dialysis exhibited persistent DNA damage, impaired DNA damage repair, and accelerated senescence. Under calcifying conditions vascular smooth muscle cells from children on dialysis showed increased osteogenic differentiation and calcification. These changes correlated with activation of the senescence-associated secretory phenotype (SASP), an inflammatory phenotype characterized by the secretion of proinflammatory cytokines and growth factors. Blockade of ataxia-telangiectasia mutated (ATM)-mediated DNA damage signaling reduced both inflammation and calcification. Clinically, children on dialysis had elevated circulating levels of osteogenic SASP factors that correlated with increased vascular stiffness and coronary artery calcification. These data imply that dysregulated mineral metabolism drives vascular inflammaging by promoting oxidative DNA damage, premature senescence, and activation of a pro-inflammatory SASP. Drugs that target DNA damage signaling or eliminate senescent cells may have the potential to prevent vascular calcification in patients with advanced CKD.en
dc.description.sponsorshipThis work was supported by grants from the British Heart Foundation (RG/11/14/29056 and RG/17/2/32808) to CMS and a British Heart Foundation Clinical Research Fellowship to RS. PS acknowledges support from the European Renal Association-European Dialysis and Transplant Association for European Renal Association-European Dialysis and Transplant Association fellowships. RS holds a Career Development Fellowship with the National Institute for Health Research. A part of this work took place in the Biomedical Research Centre at Great Ormond Street Hospital for Children National Health Service Foundation Trust and University College London. DAL holds a Medical Research Council New Investigator Award (MR/J003638/1).es_ES
dc.format.number4es_ES
dc.format.page958-972es_ES
dc.format.volume95es_ES
dc.identifier.citationSanchis P, Ho CY, Liu Y, Beltran LE, Ahmad S, Jacob AP, et al. Arterial inflammaging drives vascular calcification in children on dialysis. Kidney Int. 2019 Apr;95(4):958-72. Epub 2019 Mar 1.en
dc.identifier.doi10.1016/j.kint.2018.12.014
dc.identifier.e-issn1523-1755es_ES
dc.identifier.issn0085-2538
dc.identifier.journalKidney Internationales_ES
dc.identifier.otherhttp://hdl.handle.net/20.500.13003/17563
dc.identifier.pubmedID30827513es_ES
dc.identifier.puiL2001637384
dc.identifier.scopus2-s2.0-85062145445
dc.identifier.urihttps://hdl.handle.net/20.500.12105/22693
dc.identifier.wos461924600026
dc.language.isoengen
dc.publisherElsevier
dc.relation.publisherversionhttps://dx.doi.org/10.1016/j.kint.2018.12.014en
dc.rights.accessRightsopen accessen
dc.rights.licenseAttribution 4.0 International*
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/*
dc.subjectAging
dc.subjectCalcification
dc.subjectDialysis
dc.subjectSenescence
dc.subjectVascular smooth muscle cells
dc.subject.decsCultivo Primario de Células*
dc.subject.decsSenescencia Celular*
dc.subject.decsFemenino*
dc.subject.decsCalcificación Vascular*
dc.subject.decsProteínas de la Ataxia Telangiectasia Mutada*
dc.subject.decsLactante*
dc.subject.decsMúsculo Liso Vascular*
dc.subject.decsAdolescente*
dc.subject.decsMasculino*
dc.subject.decsDiálisis Renal*
dc.subject.decsPreescolar*
dc.subject.decsDaño del ADN*
dc.subject.decsMiocitos del Músculo Liso*
dc.subject.decsArteritis*
dc.subject.decsHumanos*
dc.subject.decsFallo Renal Crónico*
dc.subject.decsArterias*
dc.subject.decsCélulas Cultivadas*
dc.subject.decsEstrés Oxidativo*
dc.subject.decsNiño*
dc.subject.meshChild*
dc.subject.meshOxidative Stress*
dc.subject.meshPrimary Cell Culture*
dc.subject.meshHumans*
dc.subject.meshChild, Preschool*
dc.subject.meshDNA Damage*
dc.subject.meshRenal Dialysis*
dc.subject.meshAdolescent*
dc.subject.meshCells, Cultured*
dc.subject.meshArteries*
dc.subject.meshAtaxia Telangiectasia Mutated Proteins*
dc.subject.meshKidney Failure, Chronic*
dc.subject.meshArteritis*
dc.subject.meshInfant*
dc.subject.meshVascular Calcification*
dc.subject.meshMale*
dc.subject.meshCellular Senescence*
dc.subject.meshMuscle, Smooth, Vascular*
dc.subject.meshFemale*
dc.subject.meshMyocytes, Smooth Muscle*
dc.titleArterial inflammaging drives vascular calcification in children on dialysisen
dc.typeresearch articleen
dspace.entity.typePublication
relation.isPublisherOfPublication7d471502-7bd5-4f7a-90a4-8274382509ef
relation.isPublisherOfPublication.latestForDiscovery7d471502-7bd5-4f7a-90a4-8274382509ef

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