Karoline Edtinger

NAD+ protects against EAE by regulating CD4+ T-cell differentiation.

CD4+ T cells are involved in the development of autoimmunity, including multiple sclerosis (MS). Here we show that nicotinamide adenine dinucleotide (NAD+) blocks experimental autoimmune encephalomyelitis (EAE), a mouse model of MS, by inducing immune homeostasis through CD4+IFNγ+IL-10+ T cells and reverses disease progression by restoring tissue integrity via remyelination and neuroregeneration. We show that NAD+ regulates CD4+ T-cell differentiation through tryptophan hydroxylase-1 (Tph1), independently of well-established transcription factors. In the presence of NAD+, the frequency of T-bet−/− CD4+IFNγ+ T cells was twofold higher than wild-type CD4+ T cells cultured in conventional T helper 1 polarizing conditions. Our findings unravel a new pathway orchestrating CD4+ T-cell differentiation and demonstrate that NAD+ may serve as a powerful therapeutic agent for the treatment of autoimmune and other diseases.

Mechanisms and consequences of injury and repair in older organ transplants

Donor organ scarcity remains a significant clinical challenge in transplantation. Older organs, increasingly utilized to meet the growing demand for donor organs, have been linked to inferior transplant outcomes. Susceptibility to organ injury, reduced repair capacity, and increased immunogenicity are interrelated and impacted by physiological and pathological aging processes. Insights into the underlying mechanisms are needed to develop age-specific interventional strategies with regards to organ preservation, immunosuppression, and allocation. In this overview, we summarize current knowledge of injury and repair mechanisms and the effects of aging relevant to transplantation.

Obesity and its impact on transplantation and alloimmunity.

Obesity has become an increasing problem in healthcare worldwide with far-reaching consequences. More obese patients with irreversible end-stage organ failure undergo organ transplantation, and organs from obese donors are more frequently used. A growing body of evidence suggests more frequent postoperative complications and inferior patient and graft survival linked to obesity. More recently, adipose tissue has been linked to chronic inflammatory processes potentially impacting alloimmune responses and graft quality.

Immunosenescence and organ transplantation

Increasing numbers of elderly transplant recipients and a growing demand for organs from older donors impose pressing challenges on transplantation medicine. Continuous and complex modifications of the immune system in parallel to aging have a major impact on transplant outcome and organ quality. Both, altered alloimmune responses and increased immunogenicity of organs present risk factors for inferior patient and graft survival. Moreover, a growing body of knowledge on age-dependent modifications of allorecognition and alloimmune responses may require age-adapted immunosuppression and organ allocation. Here, we summarize relevant aspects of immunosenescence and their possible clinical impact on organ transplantation.

Impact of immunosenescence on transplant outcome.

Aging affects all compartments of the immune response and has a major impact on transplant outcome and organ quality. Although clinical trials in the aging transplant population remain rare, our current understanding of immunosenescence provides a basis for an age‐adapted immunosuppression and organ allocation with the goal to optimize utilization and to improve outcomes in older recipients. From a more general perspective, understanding the mechanisms and consequences of immunosenescence will have a broad impact on immune therapies in and beyond transplantation.

CD11c+ Dendritic Cells Accelerate the Rejection of Older Cardiac Transplants via Interleukin-17A

Background— Organ transplantation has seen an increased use of organs from older donors over the past decades in an attempt to meet the globally growing shortage of donor organs. However, inferior transplantation outcomes when older donor organs are used represent a growing challenge. Methods and Results— Here, we characterize the impact of donor age on solid-organ transplantation using a murine cardiac transplantation model. We found a compromised graft survival when older hearts were used. Shorter graft survival of older hearts was independent of organ age per se, because chimeric young or old organs repopulated with young passenger leukocytes showed comparable survival times. Transplantation of older organs triggered more potent alloimmune responses via intragraft CD11c+ dendritic cells augmenting CD4+ and CD8+ T-cell proliferation and proinflammatory cytokine production, particularly that of interleukin-17A. Of note, depletion of donor CD11c+ dendritic cells before engraftment, neutralization of interleukin-17A, or transplantation of older hearts into IL-17A−/− mice delayed rejection and reduced alloimmune responses to levels observed when young hearts were transplanted. Conclusions— These results demonstrate a critical role of old donor CD11c+ dendritic cells in mounting age-dependent alloimmune responses with an augmented interleukin-17A response in recipient animals. Targeting interleukin-17A may serve as a novel therapeutic approach when older organs are transplanted.

Current status of vascularized composite tissue allotransplantation.

Vascularized composite tissue allotransplantation (VCA) offers treatment options of complex functional deficiencies that cannot be repaired with conventional reconstructive methods. VCAs consist of blocks of functional units comprising different tissue types such as skin, bone, muscle, nerves, blood vessels, tendons, ligaments and others, and are thus substantially different from the composition of organ transplants. The field of VCA has made fascinating progresses in the recent past. Among other VCAs, numerous successful hand, face and limb transplants have been performed in the world. At the same time, specific questions in regard to innate and adaptive immunity, consequences of ischemia/reperfusion injury, immunosuppression, preservation, and regenerative capacity remain. In spite of this, the field is poised to make significant advances in the near future.

Defective CD8 Signaling Pathways Delay Rejection in Older Recipients.

Abstract CD8+ T cells play a cardinal feature in response to alloantigens and are able to generate effector/memory T cells independently from CD4+ T cells. To investigate the impact of aging on CD8+ T cells, we used a fully mismatched mouse skin transplant model. Our findings showed a prolonged allograft survival in older recipients associated with a significant increase of CD4+ and CD8+CD44highCD62Llow effector/memory T cells and a reduced systemic IFN&ggr; production. When reconstituting young CBA Rag-1−/− mice that lack mature T and B cells with old CD8+ T cells expressing clonal anti-H2Kb T cell receptor (TCR) alloreactive for MHC I, graft survival was significantly prolonged and comparable to those receiving young CD8+ T cells. Moreover, our data showed that reduced systemic IFN&ggr; levels observed in old recipients had been linked to a compromised expression of the IL-2R &bgr; subunit (CD122) by old CD8+ T cells. In addition, we observed an impaired IFN&ggr; production on IL-2 receptor activation. At the same time, gene profiling analysis of old CD8+ T cells demonstrated reduced chemokine ligand-3 and CD40L expression that resulted in compromised CD8+ T cell/dendritic cell communication, leading to impaired migratory and phagocytic activity of CD11c+ cells. Collectively, our study demonstrated that aging delays allograft rejection. CD8+ T cells play a critical role in this process linked to a compromised production of IFN&ggr;, in addition to a defective IL-2 receptor signaling machinery and a defective communication between CD8+ T cells and dendritic cells.

Costimulatory Blockade with CTLA4-Ig Abrogates Prolonged Graft Survival in Old Recipients

Introduction Although they represent a rapidly growing population, elderly organ transplant recipients are underrepresented in clinical trials. Age-specific aspects of established immunosuppressants are therefore poorly understood. Methods Here, we assessed the impact of immunosuppressive treatment with CTLA4-Ig, a fusion protein blocking costimulatory signaling between APCs and T cells through CD28, on alloimmune responses in old and young recipients (2-3 months vs. 16 months) in a fully MHC-mismatched murine transplantation models. Results While treatment with CTLA4-Ig prolonged skin graft survival in young recipients, the same treatment was unable to prolong graft survival in old recipients. Conversely, cardiac allografts in young mice treated with CTLA4-Ig survived indefinitely, while 80% of old recipients treated with CTLA4-Ig had lost their graft after 100 days (log-rank test, p<0.001; n=5/group; Fig. 1).{{AbstractFigure.1}} CTLA4-Ig reduced the in-vivo proliferation of CD4+ and CD8+ T cells (as assessed by BrdU incorporation) uniformly in both young and old recipients; in contrast, CTLA4-Ig reduced CD4+ central-memory and effector-memory T cells only in young but not old recipients. Moreover, systemic frequencies of CD4+IFN-&ggr;+ T cells and systemic levels of IFN-&ggr; cytokine production were reduced in young recipients, but remained unchanged in old. CTLA4-Ig caused significant perturbation in the Treg compartments with reduced frequencies and compromised proliferation of CD4+CD25+Foxp3+ cells. These differences correlated with a significant reduction in expression of CD28 on T cells in old mice, while levels of CTLA4 remained stable. Figure. No caption available. Conclusion Immunosuppressive effects of costimulatory blockade with CTLA4-Ig showed distinct age-dependent effects in both skin and cardiac transplantation. Reduced expression of CD28 with aging may represent an escape mechanism for old alloreactive T cells, with unique clinical consequences for immunosuppression in the growing population of elderly transplant recipients.

Rapamycin Prolongs Graft Survival and Induces CD4+IFN-γ+IL-10+ Regulatory Type 1 Cells in Old Recipient Mice

Background Although the elderly represents a rapidly growing population among transplant recipients, age-specific aspects have not been considered sufficiently in clinical trials. Moreover, age-specific effects of immunosuppressive therapies remain poorly understood. Methods Here, we assessed the impact of rapamycin on alloimmune responses in old recipients using a fully major histocompatibility complex–mismatched murine transplantation model. Results Old untreated recipients displayed a prolonged skin graft survival compared to their young counterparts, an observation that confirmed data of our previous experiments. Rapamycin led to a significant prolongation of graft survival in both young and old recipients. However, graft survival was age-dependent and extended in old versus young recipients (19 days vs 12 days, P = 0.004). This age-specific effect was not linked to changes in frequencies or subset composition of either cluster of differentiation (CD)8+ or CD4+ T cells. Moreover, antiproliferative effects of rapamycin on CD8+ and CD4+ T cells as assessed by in vivo bromdesoxyuridine incorporation were comparable and age-independent. In contrast, the systemic production of IL-10 was markedly elevated in old recipients treated with rapamycin. In parallel to this shift in cytokine balance, IFN-&ggr;/IL-10 double-positive regulatory type 1 cells emerged during T helper type 1 differentiation of old T helper cells in presence of rapamycin. Similarly, CD4+IFN-&ggr;+IL-10+ cells expanded among Foxp3-negative cells after in vivo treatment of old recipients with rapamycin. Conclusions Our results highlight novel aspects of age-dependent immunosuppressive effects of rapamycin, with relevance for age-specific immunosuppressive regimens.