Macrophages in solid organ transplantation

Jiang, Xinguo; Tian, Wen; Sung, Yon K.; Qian, Jin; Nicolls, Mark R.

doi:10.1186/2045-824x-6-5

Cited by 30 publications

(23 citation statements)

References 115 publications

(137 reference statements)

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“…Following transplantation, the graft microvasculature encounters multiple insults including ischemia reperfusion injury and alloimmune attack (8, 32). Despite treatment with powerful immunosuppressants, the graft microvascular circulation sustains repetitive injury followed by inadequate regeneration which eventually leads to prolonged tissue hypoxia and accelerated fibrotic remodeling.…”

Section: Discussionmentioning

confidence: 99%

Cyclosporine Does Not Prevent Microvascular Loss in Transplantation but Can Synergize With a Neutrophil Elastase Inhibitor, Elafin, to Maintain Graft Perfusion During Acute Rejection

Jiang

Nguyễn

Tian

et al. 2015

American Journal of Transplantation

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The loss of a functional microvascular bed in rejecting solid organ transplants is correlated with fibrotic remodeling and chronic rejection; in lung allografts, this pathology is predicted by bronchoalveolar fluid neutrophilia which suggests a role for polymorphonuclear cells in microcirculatory injury. In a mouse orthotopic tracheal transplant model, cyclosporine, which primarily inhibits T cells, failed as a monotherapy for preventing microvessel rejection and graft ischemia. To target neutrophil action that may be contributing to vascular injury, we examined the effect of a neutrophil elastase inhibitor, elafin, on the microvascular health of transplant tissue. We showed that elafin monotherapy prolonged microvascular perfusion and enhanced tissue oxygenation while diminishing the infiltration of neutrophils and macrophages and decreasing tissue deposition of complement C3 and the membrane attack complex, C5b-9. Elafin was also found to promote angiogenesis through activation of the extracellular signal-regulated kinase (ERK) signaling pathway but was insufficient as a single agent to completely prevent tissue ischemia during acute rejection episodes. However, when combined with cyclosporine, elafin effectively preserved airway microvascular perfusion and oxygenation. The therapeutic strategy of targeting neutrophil elastase activity alongside standard immunosuppression during acute rejection episodes may be an effective approach for preventing the development of irreversible fibrotic remodeling.

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Section: Discussionmentioning

confidence: 99%

Cyclosporine Does Not Prevent Microvascular Loss in Transplantation but Can Synergize With a Neutrophil Elastase Inhibitor, Elafin, to Maintain Graft Perfusion During Acute Rejection

Jiang

Nguyễn

Tian

et al. 2015

American Journal of Transplantation

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“…Activated T cells also recruit a large number of innate cells including macrophages and granulocytes into the allograft where they either directly or indirectly mediate graft failure. Following transplantation, macrophages can also differentiate into many functionally different subsets, mediating phagocytosis of necrotic cells, secretion of pro-inflammatory cytokines, production of reactive oxygen species, as well as mediating tissue repair, regeneration, and immunoregulation [5]. Other innate cells involved in allograft rejection include natural killer (NK) cells.…”

Section: Introductionmentioning

confidence: 99%

Macrophages as Effectors of Acute and Chronic Allograft Injury

Liu

Kloc

2016

Curr Transpl Rep

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Organ transplants give a second chance of life to patients with end-stage organ failure. However, the immuno-logical barriers prove to be very challenging to overcome and graft rejection remains a major hurdle to long-term transplant survival. For decades, adaptive immunity has been the focus of studies, primarily based on the belief that T cells are necessary and sufficient for rejection. With better-developed immunosuppressive drugs and protocols that effectively control adaptive cells, innate immune cells have emerged as key effector cells in triggering graft injury and have therefore attracted much recent attention. In this review, we discuss current understanding of macrophages and their role in transplant rejection, their dynamics, distinct phenotypes, locations, and functions. We also discuss novel therapeutic approaches under development to target macrophages in transplant recipients.

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“…Independently of allograft type, macrophages accumulation and activation occur within the early phase of IRI processes triggering quick and intense innate immune response activation and organ injury (42). Moreover, through the production of pro-inflammatory mediator and its capacity as antigen presenting cells, accumulated macrophages may promote adaptive T cell response (18,42).…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, through the production of pro-inflammatory mediator and its capacity as antigen presenting cells, accumulated macrophages may promote adaptive T cell response (18,42). Previous studies demonstrated increased activity of Kupffer cells (KC), the hepatic macrophage, in steatotic liver allografts (17).…”

Section: Discussionmentioning

confidence: 99%

“…ROS scavenging mechanisms (superoxide dismutases) represent candidates for therapeutic interventions to minimize oxidative stress (29). However, the TLR4 signaling pathway is essential for macrophage activation, and its deficiency demonstrated protective effects for IRI injury basically involving reduced levels of TNF-α and IL-6 cytokines (42,44,45). In addition, activation of TLR4 signaling induces adaptive response by increasing CD4 cells infiltration constantly sustained as demonstrated in murine models (22).…”

Section: Discussionmentioning

confidence: 99%

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Donor Hepatic Steatosis Induce Exacerbated Ischemia-Reperfusion Injury Through Activation of Innate Immune Response Molecular Pathways

et al. 2015

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Background Severe liver steatosis is a known risk factor for increased ischemia-reperfusion injury (IRI) and poor outcomes post liver transplantation (LT). This study aimed to identify steatosis-related molecular mechanisms associated with IRI exacerbation post-LT. Methods Paired graft biopsies (n=60) were collected at pre-implantation (L1) and 90 min post-reperfusion (L2). LT recipients (n=30) were classified by graft macrosteatosis: without steatosis or ≤5% (WS, n=13) and with steatosis ≥25% (S, n=17). Plasma samples were collected at L1, L2, and 1-day post-LT (POD1) for cytokines evaluation. Tissue RNA was isolated for gene expression microarrays. Probeset summaries were obtained using RMA algorithm. Pairwise comparisons were fit using two-sample t-test. P-values ≤0.01 were significant (FDR <5%). Molecular pathway analyses were conducted using IPA tool. Results Significantly differentially expressed genes were identified for WS and S grafts, post-reperfusion. Comprehensive comparison analysis of molecular profiles revealed significant association of S grafts molecular profile with innate immune response activation, macrophages production of nitric oxide and reactive oxygen species, IL-6, IL-8, IL-10 signaling activation, recruitment of granulocytes, and accumulation of myeloid cells. Post-reperfusion histological patterns of S grafts revealed neutrophilic infiltration surrounding fat accumulation. Circulating pro-inflammatory cytokines at post-reperfusion and 24 hours post-LT concurred with intra-graft deregulated molecular pathways. All tested cytokines were significantly increased in plasma of S grafts recipients at post-reperfusion when compared with WS group at same time. Conclusions Increases of graft steatosis exacerbate IRI by exacerbation of innate immune response post-LT. Preemptive strategies should consider it for safety usage of steatotic livers.

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Macrophages in solid organ transplantation

Cited by 30 publications

References 115 publications

Cyclosporine Does Not Prevent Microvascular Loss in Transplantation but Can Synergize With a Neutrophil Elastase Inhibitor, Elafin, to Maintain Graft Perfusion During Acute Rejection

Cyclosporine Does Not Prevent Microvascular Loss in Transplantation but Can Synergize With a Neutrophil Elastase Inhibitor, Elafin, to Maintain Graft Perfusion During Acute Rejection

Macrophages as Effectors of Acute and Chronic Allograft Injury

Donor Hepatic Steatosis Induce Exacerbated Ischemia-Reperfusion Injury Through Activation of Innate Immune Response Molecular Pathways

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