Abstract
Liver allograft recipients are more likely to develop transplantation tolerance than those that receive other types of organ graft. Experimental studies suggest that immune cells and other non-parenchymal cells in the unique liver microenvironment play critical roles in promoting liver tolerogenicity. Of these, liver interstitial dendritic cells (DCs) are heterogeneous, innate immune cells that appear to play pivotal roles in the instigation, integration and regulation of inflammatory responses after liver transplantation. Interstitial liver DCs (recruited in situ or derived from circulating precursors) have been implicated in regulation of both ischemia/reperfusion injury (IRI) and anti-donor immunity. Thus, livers transplanted from mice constitutively lacking DCs into syngeneic, wild-type recipients, display increased tissue injury, indicating a protective role of liver-resident donor DCs against transplant IRI. Also, donor DC depletion before transplant prevents mouse spontaneous liver allograft tolerance across major histocompatibility complex (MHC) barriers. On the other hand, mouse liver graft-infiltrating host DCs that acquire donor MHC antigen via “cross-dressing”, regulate anti-donor T cell reactivity in association with exhaustion of graft-infiltrating T cells and promote allograft tolerance. In an early phase clinical trial, infusion of donor-derived regulatory DCs (DCreg) before living donor liver transplantation can induce alterations in host T cell populations that may be conducive to attenuation of anti-donor immune reactivity. We discuss the role of DCs in regulation of warm and liver transplant IRI and the induction of liver allograft tolerance. We also address design of cell therapies using DCreg to reduce the immunosuppressive drug burden and promote clinical liver allograft tolerance.
Highlights
Dendritic Cell Biology and DiversityOur understanding of dendritic cells (DCs) development and function is based largely on extensive studies in mouse models and human in vitro systems
Mouse conventional DCs (cDCs) are further divided into two subsets, cDC1 (CD11c+,CD103+,CD11b-) and cDC2 (CD11c+,CD103, CD11b+) that differentiate under the influence of IFN regulatory factor (IRF) 8 and IRF4, respectively
Adoptive transfer of wild-type (WT) but not DNAX activating protein of 12 kDa (DAP12)-/cDCs reduces warm liver ischemia/ reperfusion injury (IRI) in DAP12-/- mice that exhibit enhanced tissue injury compared with WT animals [48]. These findings suggest a protective role for DCs in warm liver IRI
Summary
Dendritic Cell Biology and DiversityOur understanding of DC development and function is based largely on extensive studies in mouse models and human in vitro systems. TIM-4 (T cell immunoglobulin domain and mucin domain containing 4) expression by liver cDC has been reported to play an important role in mouse segmental warm IRI [52]; its blockade by anti-TIM-4 antibody reduces liver injury and inflammatory cytokine production and facilitates induction of Foxp3+ Tregs, suggesting a potential therapeutic approach.
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