Transplantation
Abstract
Erythropoietin (EPO) has multiple non-erythropoietic functions including immune modulation, but EPO’s effects in transplantation remain incompletely understood. We tested the mechanisms linking EPO administration to prolongation of murine heterotopic heart transplantation using wild type (WT) and conditional EPO receptor (EPOR) knockout mice as recipients. In WT controls, peri-transplant administration of EPO synergized with CTLA4-Ig to prolong allograft survival (P < 0.001), reduce frequencies of donor-reactive effector CD8+ T cells in the spleen (P < 0.001) and in the graft (P < 0.05), and increase frequencies and total numbers of donor-reactive regulatory T cells (TREG, P < 0.01 for each) vs. CTLA4-Ig alone. Studies performed in conditional EPOR knockout recipients showed that each of these differences required EPOR expression in myeloid cells, but not in T cells. Analysis of mRNA isolated from spleen monocytes showed that EPO/EPOR ligation upregulated macrophage-expressed, anti-inflammatory, regulatory and pro-efferocytosis genes, and downregulated selected pro-inflammatory genes. Together, the data support the conclusion that EPO promotes TREG-dependent murine cardiac allograft survival by crucially altering the phenotype and function of macrophages. Coupled with our previous documentation that EPO promotes TREG expansion in humans, the data support the need for testing the addition of EPO to costimulatory blockade-containing immunosuppression regimens in an effort to prolong human transplant survival.
Authors
Julian K. Horwitz, Sofia Bin, Robert L. Fairchild, Karen S, Keslar, Zhengzi Yi, Weijia Zhang, Vasile I. Pavlov, Yansui Li, Joren C. Madsen, Paolo Cravedi, Peter S. Heeger
Abstract
Long-term impairment in T cell mediated adaptive immunity is a major clinical obstacle following treatment of blood disorders with Hematopoietic Stem Cell Transplantation (HSCT). Though T cell development in the thymus has been extensively characterized, there are significant gaps in our understanding of pre-thymic processes which influence early T cell potential. We have uncovered a Notch-IL21 signaling axis in Bone Marrow (BM) Common Lymphoid Progenitor (CLP) cells. IL21r expression is driven by Notch activation in CLPs, and in vivo treatment with IL21 induces Notch-dependent CLP proliferation. Taking advantage of this novel signaling axis, we have generated T cell progenitors ex vivo which better repopulate the thymus and peripheral lymphoid organs of mice in an allogeneic transplant model. Importantly, Notch and IL21 activation is equally effective in the priming and expansion of human Cord Blood (CB) cells toward the T cell fate, confirming the translational potential of the combined treatment.
Authors
Kilian Sottoriva, Na Yoon Paik, Zachary White, Thilinie Bandara, Lijian Shao, Teruyuki Sano, Kostandin Pajcini
Abstract
Monocytes play an important role in the regulation of alloimmune responses after heart transplantation (HTx). Recent studies have highlighted the importance of immunometabolism in the differentiation and function of myeloid cells. While the importance of glucose metabolism in monocyte differentiation and function has been reported, a role for fatty acid β-oxidation (FAO) has not been explored. Heterotopic HTx was performed using hearts from Balb/c donor mice implanted into C57Bl/6 recipient mice and treated with etomoxir (eto), an irreversible inhibitor of carnitine palmitoyltransferase 1 (Cpt1), a rate-limiting step of FAO, or vehicle control. FAO inhibition prolonged HTx survival, reduced early T cell infiltration/activation and reduced dendritic cell (DC) and macrophage infiltration to heart allografts of eto-treated recipients. ELISPOT demonstrated eto-treated HTx were less reactive to activated donor antigen presenting cells. FAO inhibition reduced monocyte-to-DC and monocyte-to-macrophage differentiation in vitro and in vivo. FAO inhibition did not alter the survival of heart allografts when transplanted into Ccr2-deficient recipients, suggesting the effects of FAO inhibition were dependent on monocyte mobilization. Finally, we confirmed the importance of FAO on monocyte differentiation in vivo using conditional deletion of Cpt1a. Our findings demonstrate that targeting FAO attenuates alloimmunity after HTx, in part through impairing monocyte differentiation.
Authors
Yuehui Zhu, Hao Dun, Li Ye, Yuriko Terada, Leah P. Shriver, Gary J. Patti, Daniel Kreisel, Andrew E. Gelman, Brian W. Wong
Abstract
Type 1 diabetes is an autoimmune disease characterized by insulin-producing beta-cell destruction. While islet transplantation restores euglycemia and improves patient outcomes, an ideal transplant site remains elusive. Brown adipose tissue (BAT) is a highly vascularized and anti-inflammatory microenvironment. As these tissue features can promote islet graft survival, we hypothesize that islets transplanted into BAT will maintain islet graft and BAT function, while delaying immune-mediated rejection. We performed syngeneic and allogeneic islet transplants into BAT or under the kidney capsule of streptozotocin (STZ)-induced diabetic NOD.Rag and NOD mice to investigate islet graft function, BAT function, metabolism, and immune-mediated rejection. Islet grafts within BAT restored euglycemia similarly to kidney capsule controls. Islets transplanted in BAT maintained expression of islet hormones, transcription factors, and were vascularized. Compared to kidney capsule and euglycemic mock surgery controls, no differences in glucose or insulin tolerance, thermogenic regulation, or energy expenditure were observed with islet grafts in BAT. Immune profiling of BAT revealed enriched anti-inflammatory macrophages and T cells. Compared to kidney capsule, islets transplanted in BAT demonstrated significant delays in autoimmune and allograft rejection, possibly due to increased anti-inflammatory immune populations. Our data support BAT as an alternative islet transplantation site that may improve graft survival.
Authors
Jessica D. Kepple, Jessie M. Barra, Martin E. Young, Chad S. Hunter, Hubert M. Tse
Abstract
Cytomegalovirus (CMV) infection remains an important cause of morbidity and mortality after allogeneic hematopoietic stem cell transplantation (allo-HSCT). Several investigators have reported that adaptive NKG2C+ NK cells persistently expand during CMV reactivation. In our study, two cohorts were enrolled to explored the relationships among the NKG2C genotype, NKG2C+ NK cell reconstitution, and CMV infection. Multivariate analysis showed that donor NKG2C gene deletion was an independent prognostic factor for CMV reactivation and refractory CMV reactivation. Furthermore, the quantitative, qualitative reconstitution and anti-CMV function of adaptive NKG2C+ NK cells after transplantation was significantly lower in patients grafted with NKG2Cwt/del donor cells than in those grafted with NKG2Cwt/wt donor cells. The quantitative reconstitution of NKG2C+ NK cells at day 30 after transplantation was significantly lower in patients with treatment-refractory CMV reactivation than in those in the no-CMV-reactivation and CMV-reactivation groups. In humanized CMV-infected mice, we found that compared with those from NKG2Cwt/del donors, adaptive NKG2C+ NK cells from NKG2Cwt/wt donors induced earlier and stronger expansion of NKG2C+ NK cells and earlier and stronger CMV clearance in vivo. In conclusion, donor NKG2C homozygosity contributes to CMV clearance by promoting the quantitative and qualitative reconstruction of adaptive NKG2C+ NK cells after haploidentical allo-HSCT.
Authors
Xing-Xing Yu, Qian-Nan Shang, Xue-Fei Liu, Mei He, Xu-Ying Pei, Xiao-Dong Mo, Meng Lv, Ting-Ting Han, Ming-Rui Huo, Xiaosu Zhao, Ying-Jun Chang, Yu Wang, Xiao-Hui Zhang, Lan-Ping Xu, Kai-Yan Liu, Xiangyu Zhao, Xiaojun Huang
Abstract
The PD-1: PD-L1 is a potent inhibitory pathway involved in immune regulation and a potential therapeutic target in transplantation. In this study, we show that overexpression of PD-1 (PD-1 Tg) on T cells promotes allograft tolerance in a fully MHC-mismatched cardiac transplant model when combined with costimulation blockade (CTLA-4-Ig). PD-1 overexpression on T cells also protected against chronic rejection in a single MHC II mismatched cardiac transplant model, while it still allowed the generation of an effective immune response against an Influenza A virus. Notably, Treg cells from PD-1 Tg mice were required for tolerance induction and presented higher ICOS expression than those from wild-type mice. Survival benefit of PD-1 Tg recipients required ICOS signaling and donor PD-L1 expression. These results indicate that modulation of PD-1 expression, in combination with a costimulation blockade, is a promising therapeutic target to promote transplant tolerance.
Authors
Thiago J. Borges, Naoka Murakami, Isadora T. Lape, Rodrigo B. Gassen, Kaifeng Liu, Songjie Cai, Joe Daccache, Kassem Safa, Tetsunosuke Shimizu, Shunsuke Ohori, Alison M. Paterson, Paolo Cravedi, Jamil Azzi, Peter Sage, Arlene Sharpe, Xian C. Li, Leonardo V. Riella
Abstract
Patients with acute leukemia who are unable to achieve complete remission prior to allogeneic hematopoietic stem cell transplantation (SCT) have dismal outcomes with relapse rates well in excess of 60%. Haplo-identical SCT (haplo-SCT) may allow enhanced graft-versus-leukemia (GVL) effects by virtue of HLA class I/II donor-host disparities but typically requires intensive immune-suppression with post-transplant cyclophosphamide (PT-Cy) to prevent lethal graft-versus-host disease (GVHD). Here we demonstrate in preclinical models that glucocorticoid administration from day -1 to +5 inhibits alloantigen presentation by professional recipient antigen presenting cells in the gastrointestinal tract and prevents donor T-cell priming and subsequent expansion therein. In contrast, direct glucocorticoid signaling of donor T-cells promotes chemokine and integrin signatures permissive of preferential circulation and migration into the bone marrow, promoting donor T-cell residency. This results in significant reductions in GVHD whilst promoting potent GVL effects (relapse in recipients receiving glucocorticoids, vehicle or PT-Cy was 12%, 56% and 100% respectively). Intriguingly, patients with acute myeloid leukemia not in remission that received unmanipulated haplo-SCT and peri-transplant glucocorticoids also had an unexpectedly low relapse rate at 1 year (32%: 95% CI, 18%-47%) with high overall survival at 3 years (58%: 95% CI, 38-74%). These data highlight a potentially simple and effective approach to prevent relapse in patients with otherwise incurable leukemia that could be studied in prospective randomized trials.
Authors
Takayuki Inoue, Motoko Koyama, Katsuji Kaida, Kazuhiro Ikegame, Kathleen S. Ensbey, Luke Samson, Shuichiro Takahashi, Ping Zhang, Simone A. Minnie, Satoshi Maruyama, Shinichi Ishii, Takashi Daimon, Takahiro Fukuda, Hirohisa Nakamae, Takahide Ara, Yumiko Maruyama, Ken Ishiyama, Tatsuo Ichinohe, Yoshiko Atsuta, Bruce R. Blazar, Scott N. Furlan, Hiroyasu Ogawa, Geoffrey R. Hill
Abstract
Cytomegalovirus (CMV) causes mostly asymptomatic but lifelong infection. Primary infection or reactivation in immunocompromised individuals can be life-threatening. CMV viremia often occurs in solid organ transplant (SOT) recipients and associates with decreased graft survival and higher mortality. Furthering understanding of impaired immunity allowing CMV reactivation is critical to guiding anti-viral therapy and examining CMV’s impact on outcomes of SOT. This study characterized longitudinal immune responses to CMV in 31 kidney transplant recipients with CMV viremia and matched, non-viremic recipients. Subjects were sampled three- and twelve-months post-transplant, with additional samples one-week and one-month post-viremia. Peripheral blood mononuclear cells (PBMC) were stained for NK and T cell markers. PBMC transcriptomes were characterized by RNA-Seq. Plasma proteins were quantified by Luminex. CD8 T cell transcriptomes were characterized by single-cell RNA-Seq. Pre-viremia, patients had high levels of IL-15 with concurrent expansion of immature CD56bright NK cells. Post-viremia, mature CD56dim NK cells and CD28- CD8 T cells upregulating inhibitory and NK-associated receptors were expanded. Phenotype of NK cells and CD28- CD8 T cells were associated with control of viremia. These findings suggest signatures of innate activation may be prognostic for CMV reactivation post-transplant, while CD8 T cell functionality is critical for effective control of CMV.
Authors
Harry Pickering, Subha Sen, Janice Arakawa-Hoyt, Kenichi Ishiyama, Yumeng Sun, Rajesh Parmar, Richard Ahn, Gema Sunga, Megan Llamas, Alexander Hoffmann, Mario Deng, Suphamai Bunnapradist, Joanna M. Schaenman, David W. Gjertson, Maura Rossetti, Lewis L. Lanier, Elaine F. Reed
Abstract
Autoimmune disease has presented an insurmountable barrier to restoration of durable immune tolerance. Previous studies indicate that chronic therapy with metabolic inhibitors can reduce autoimmune inflammation, but it remains unknown whether acute metabolic modulation enables permanent immune tolerance to be established. In an animal model of lupus, we determined that targeting glucose metabolism with 2-deoxyglucose (2DG) and mitochondrial metabolism with metformin enables endogenous immune tolerance mechanisms to respond to tolerance induction. A 2-week course of 2DG and metformin, when combined with tolerance-inducing therapy anti-CD45RB, prevented renal deposition of autoantibodies for 6 months after initial treatment and also restored tolerance induction to allografts in lupus-prone mice. The restoration of durable immune tolerance was linked to changes in T cell surface glycosylation patterns, illustrating a role for glycoregulation in immune tolerance. These findings indicate that metabolic therapy may be applied as a powerful preconditioning to reinvigorate tolerance mechanisms in autoimmune and transplant settings that resist current immune therapies.
Authors
Christopher S. Wilson, Blair T. Stocks, Emilee M. Hoopes, Jillian P. Rhoads, Kelsey L. McNew, Amy S. Major, Daniel J. Moore
Abstract
Allogeneic hematopoietic stem cell transplantation is a viable treatment for multiple hematologic diseases, but its application is often limited by graft-versus-host disease (GVHD), where donor T cells attack host tissues in the skin, liver, and gastrointestinal tract. Here, we examined the role of the cellular energy sensor AMP kinase (AMPK) in alloreactive T cells during GVHD development. Early posttransplant, AMPK activity increased more than 15-fold in allogeneic T cells, and transplantation of T cells deficient in both AMPKα1 and AMPKα2 decreased GVHD severity in multiple disease models. Importantly, a lack of AMPK lessened GVHD without compromising antileukemia responses or impairing lymphopenia-driven immune reconstitution. Mechanistically, absence of AMPK decreased both CD4+ and CD8+ effector T cell numbers as early as day 3 posttransplant, while simultaneously increasing regulatory T cell (Treg) percentages. Improvements in GVHD resulted from cell-intrinsic perturbations in conventional effector T cells as depletion of donor Tregs had minimal impact on AMPK-related improvements. Together, these results highlight a specific role for AMPK in allogeneic effector T cells early posttransplant and suggest that AMPK inhibition may be an innovative approach to mitigate GVHD while preserving graft-versus-leukemia responses and maintaining robust immune reconstitution.
Authors
Darlene A. Monlish, Kevin J. Beezhold, Pailin Chiaranunt, Katelyn Paz, Nathan J. Moore, Andrea K. Dobbs, Rebecca A. Brown, John A. Ozolek, Bruce R. Blazar, Craig A. Byersdorfer
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