Circulating mitochondria in deceased organ donors are associated with immune activation and early allograft dysfunction
Justin Pollara, R. Whitney Edwards, Liwen Lin, Victoria A. Bendersky, Todd V. Brennan
Justin Pollara, R. Whitney Edwards, Liwen Lin, Victoria A. Bendersky, Todd V. Brennan
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Research Article Inflammation Transplantation

Circulating mitochondria in deceased organ donors are associated with immune activation and early allograft dysfunction

Abstract

Brain death that occurs in the setting of deceased organ donation for transplantation is associated with systemic inflammation of unknown origin. It has recently been recognized that mitochondria-derived damage-associated molecular patterns (mtDAMPs) released into the circulation in the setting of trauma and tissue injury are associated with a systemic inflammatory response. We examined the blood of deceased organ donors and found elevated levels of inflammatory cytokines and chemokines that correlated with levels of mtDAMPs. We also found that donor neutrophils are activated and that donor plasma contains a neutrophil-activating factor that is blocked by cyclosporin H, a formyl peptide receptor-1 antagonist. Examination of donor plasma by electron microscopy and flow cytometry revealed that free- and membrane-bound mitochondria are elevated in donor plasma. Interestingly, we demonstrated a correlation between donor plasma mitochondrial DNA levels and early allograft dysfunction in liver transplant recipients, suggesting a role for circulating mtDAMPs in allograft outcomes. Current approaches to prolong allograft survival focus on immune suppression in the transplant recipient; our data indicate that targeting inflammatory factors in deceased donors prior to organ procurement is another potential strategy for improving transplant outcomes.

Authors

Justin Pollara, R. Whitney Edwards, Liwen Lin, Victoria A. Bendersky, Todd V. Brennan

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Figure 2

Plasma from deceased organ donors can activate PMNs from healthy living normal donors ex vivo.

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Plasma from deceased organ donors can activate PMNs from healthy living ...
(A) PMNs from a minimum of 2 healthy living donors were incubated overnight with plasma from deceased organ donors (donation after brain death [DBD], n = 22, blue squares; donation after cardiac death [DCD], n = 4, red squares) or healthy normal donors (NDs, n = 9, black squares), and the average median fluorescence intensity (MFI) ratios compared with incubation with autologous plasma are shown. Shaded boxes represent the range of observed responses and the medians are indicated by black lines. (B) MFIs of CD11b were significantly higher on PMNs incubated with plasma from DBD/DCD donors (n = 26) when compared with PMNs incubated with plasma from NDs (n = 9). The gray boxes represent the interquartile range, the lines represent the median, and whiskers indicate the range of observed responses. Comparison was performed using a Mann-Whitney test. P < 0.05 was considered significant. (C) Increased donor kidney donor profile index (KDPI), indicative of poorer donor health, correlates with the ability of donor plasma to activate healthy donor PMNs ex vivo, as assessed by cell surface CD11b expression determined by flow cytometry analysis (n = 24, KDPI not available for 2 donors). Spearman’s rank correlation test was used to examine for correlations between the variables.