Cellular recovery after prolonged warm ischaemia of the whole body.
David AndrijevicZvonimir VrseljaTaras LysyyShupei ZhangMario ŠkaricaAna SpajicDavid DellalStephanie L ThornRobert B DuckrowShaojie MaPhan Q DuyAtagun U IsiktasDan LiangMingfeng LiSuel-Kee KimStefano G DanieleKhadija BanuSudhir PerincheriMadhav C MenonAnita HuttnerKevin Navin ShethKevin T GobeskeGregory T TietjenHitten P ZaveriStephen R LathamAlbert J SinusasNenad SestanPublished in: Nature (2022)
After cessation of blood flow or similar ischaemic exposures, deleterious molecular cascades commence in mammalian cells, eventually leading to their death 1,2 . Yet with targeted interventions, these processes can be mitigated or reversed, even minutes or hours post mortem, as also reported in the isolated porcine brain using BrainEx technology 3 . To date, translating single-organ interventions to intact, whole-body applications remains hampered by circulatory and multisystem physiological challenges. Here we describe OrganEx, an adaptation of the BrainEx extracorporeal pulsatile-perfusion system and cytoprotective perfusate for porcine whole-body settings. After 1 h of warm ischaemia, OrganEx application preserved tissue integrity, decreased cell death and restored selected molecular and cellular processes across multiple vital organs. Commensurately, single-nucleus transcriptomic analysis revealed organ- and cell-type-specific gene expression patterns that are reflective of specific molecular and cellular repair processes. Our analysis comprises a comprehensive resource of cell-type-specific changes during defined ischaemic intervals and perfusion interventions spanning multiple organs, and it reveals an underappreciated potential for cellular recovery after prolonged whole-body warm ischaemia in a large mammal.