BACKGROUND: The role of the circulating leukocytes in lungs and their relationship with circulating proinflammatory cytokines during ischemia-reperfusion injury is not well understood. Using ex vivo lung perfusion (EVLP) to investigate the pathophysiology of isolated lungs, we aimed to identify a therapeutic target to optimize lung preservation leading to successful lung transplantation. METHODS: Rat heart-lung blocks were placed on EVLP for 4 hours with or without a leukocyte-depleting filter (LF). After EVLP, lung grafts were transplanted, and posttransplant outcomes were compared. RESULTS: Lung function was significantly better in lung grafts on EVLP with a LF than in lungs on EVLP without a LF. The interleukin (IL)-6 levels in the lung grafts and EVLP perfusate were also significantly lower after EVLP with a LF. Interestingly, IL-6 levels in the perfusate did not increase after the lungs were removed from the EVLP circuit, indicating that the cells trapped by the LF were not secreting IL-6. The trapped cells were analyzed with flow cytometry to detect apoptosis and pyroptosis; 26% were pyroptotic (Caspase-1-positive). After transplantation, there was better graft function and less inflammatory response if a LF was used or a caspase-1 inhibitor was administered during EVLP. CONCLUSIONS: Our data demonstrated that circulating leukocytes derived from donor lungs, and not circulating proinflammatory cytokines substantially impaired the quality of lung grafts through caspase-1-induced pyroptotic cell death during EVLP. Removing these cells with a LF and/or inhibiting pyroptosis of the cells can be a new therapeutic approach leading to long-term success after lung transplantation.
BACKGROUND: The role of the circulating leukocytes in lungs and their relationship with circulating proinflammatory cytokines during ischemia-reperfusion injury is not well understood. Using ex vivo lung perfusion (EVLP) to investigate the pathophysiology of isolated lungs, we aimed to identify a therapeutic target to optimize lung preservation leading to successful lung transplantation. METHODS:Rat heart-lung blocks were placed on EVLP for 4 hours with or without a leukocyte-depleting filter (LF). After EVLP, lung grafts were transplanted, and posttransplant outcomes were compared. RESULTS: Lung function was significantly better in lung grafts on EVLP with a LF than in lungs on EVLP without a LF. The interleukin (IL)-6 levels in the lung grafts and EVLP perfusate were also significantly lower after EVLP with a LF. Interestingly, IL-6 levels in the perfusate did not increase after the lungs were removed from the EVLP circuit, indicating that the cells trapped by the LF were not secreting IL-6. The trapped cells were analyzed with flow cytometry to detect apoptosis and pyroptosis; 26% were pyroptotic (Caspase-1-positive). After transplantation, there was better graft function and less inflammatory response if a LF was used or a caspase-1 inhibitor was administered during EVLP. CONCLUSIONS: Our data demonstrated that circulating leukocytes derived from donor lungs, and not circulating proinflammatory cytokines substantially impaired the quality of lung grafts through caspase-1-induced pyroptotic cell death during EVLP. Removing these cells with a LF and/or inhibiting pyroptosis of the cells can be a new therapeutic approach leading to long-term success after lung transplantation.
Authors: Jared P Beller; Matthew R Byler; Dustin T Money; William Z Chancellor; Aimee Zhang; Yunge Zhao; Mark H Stoler; Adishesh K Narahari; Alexander Shannon; J Hunter Mehaffey; Curtis G Tribble; Victor E Laubach; Irving L Kron; Mark E Roeser Journal: J Heart Lung Transplant Date: 2019-09-18 Impact factor: 10.247
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Authors: Nikhil K Prasad; Chetan Pasrija; Tara Talaie; Alexander S Krupnick; Yunge Zhao; Christine L Lau Journal: Transplantation Date: 2021-05-01 Impact factor: 4.939
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