Pre- and posttransplantation allosensitization in heart allograft recipients: major impact of de novo alloantibody production on allograft survival

The involvement of humoral response in allograft rejection has been suggested by both immunologic and histochemistry studies. In the present study, we explored the role of alloantibodies in a large cohort of heart allograft recipients followed for 15 years. Sequential samples of sera were obtained from 950 recipients of heart allografts before and after transplantation at the time when protocol endomyocardial biopsies were performed. The presence of anti-human leukocyte antigen (HLA) antibodies was investigated using complement mediated cytotoxicity and solid phase assay (SPA). Our data reveal an inverse correlation between the development of alloantibodies after transplantation and heart allograft survival. The 15-year graft survival was highest in patients who never developed alloantibodies (70%) or who displayed them only before transplantation (71%); graft survival in recipients who showed antibodies both before and after transplantation (56%), or only after transplantation (47%), was lower. The deleterious effect of antibodies on graft survival started 8 years after transplantation, suggesting that the production of de novo antibodies may have been triggered by some later event. We found that patients with de novo antibodies appearing more than 1 year after transplantation had the poorest survival. Furthermore, the development of de novo antibodies was preceded in 76% of these patients by cellular rejection grade 3 or higher, according to the International Society for Heart Transplantation (ISHT) grading criteria. Development of antibody-mediated rejection (AMR) had a significant negative impact on graft survival (16% in AMR(+) vs 63% in AMR(-) patients, p = 0.0008). Of the 23 patients with AMR, 21 displayed cytotoxic donor-specific antibodies (DSA) at the time of diagnosis, and in 18 of these cases SPA showed that they were directed against the donors' HLA. The data demonstrate that the detection of alloantibodies permits a better definition of AMR in heart allograft recipients. Identification of patients at risk for developing AMR is of great importance for early treatment of rejection episodes.     

肾移植免疫学研究进展

随着免疫抑制剂的不断开发应用，肾移植术后移植肾短期存活率已大大提升，然而其长期存活率仍较低。对于肾移植术后移植肾存活而言，免疫排斥是其中最重要的危险因素。近年来，基于肾移植移植免疫排斥反应，肾移植移植免疫系统逐渐建立，各种免疫细胞在肾移植中的作用及其机制逐渐被揭示，尤其是B细胞及其在肾移植中的作用，逐渐被人们所重视。本文以免疫细胞与移植肾的关系为出发点，详细阐述适应性免疫与天然免疫在肾移植中的作用及其机制，以期梳理肾移植中移植免疫机制，为今后肾移植免疫研究探索新的方向。     

Anti‐HLA alloantibodies of the IgA isotype in re‐transplant candidates part II: Correlation with graft survival

We reported previously on the widespread occurrence of anti‐HLA alloantibodies of the IgA isotype (anti‐HLA IgA) in the sera of solid‐organ re‐transplantation (re‐tx) candidates (Arnold et al., 2013 ). Specifically focussing on kidney re‐tx patients, we now extended our earlier findings by examining the impact of the presence and donor specificity of anti‐HLA IgA on graft survival. We observed frequent concurrence of anti‐HLA IgA and anti‐HLA IgG in 27% of our multicenter collective of 694 kidney re‐tx patients. This subgroup displayed significantly reduced graft survival as evidenced by the median time to first dialysis after transplantation (TTD 77 months) compared to patients carrying either anti‐HLA IgG or IgA (TTD 102 and 94 months, respectively). In addition, donor specificity of anti‐HLA IgA had a significant negative impact on graft survival (TTD 74 months) in our study. Taken together, our data strongly indicate that presence of anti‐HLA IgA, in particular in conjunction with anti‐HLA‐IgG, in sera of kidney re‐tx patients is associated with negative transplantation outcome.     

Primary B cell repertoire remodeling to achieve humoral transplantation tolerance

The current mainstay of immunotherapy in clinical transplantation is T lymphocyte directed. However, it has long been appreciated that the emergence of an alloimmune response mounted by the B lymphocyte compartment and detectable as donor-specific antibodies is a critical challenge to long-term graft survival. Thus, achieving robust transplantation tolerance will require induction of tolerance in both the T- and B-cell compartments. Here we propose that the natural developmental propensity of the B-lymphocyte compartment acquisition of tolerance to self-antigens can be recapitulated to achieve humoral transplantation tolerance. It is our contention B-lymphocyte directed induction immunotherapy would be an important component of emerging strategies for induction of Transplantation tolerance.     

阿伦和达珠单抗与抗胸腺蛋白对肾移植的有效性及安全性比较

背景：免疫抑制剂是通过影响机体的体液免疫和细胞免疫抑制机体的免疫功能来完成抗急性排斥反应,提高人/肾存活率。 目的：比较3种免疫抑制诱导剂阿伦单抗、达珠单抗和抗胸腺蛋白在肾移植免疫诱导中的有效性与安全性。 方法：运用Cochrane系统评价法,检索1966年至2011年PUBMED,EMBASE等数据库。纳入阿伦单抗、达珠单抗和抗胸腺蛋白3种药物在肾移植中的随机对照试验(RCT)进行Meta分析。 结果与结论：9个RCT的777例患者纳入分析,3种药物24个月的人/肾存活率和急性排斥发生率差异无显著性意义(均P > 0.05)。随访36个月时,阿伦单抗感染率显著低于抗胸腺蛋白(P < 0.05)。分析结果表明,3种药物的免疫诱导效果相近;随访36个月时,阿伦单抗较抗胸腺蛋白的感染率低。 中国组织工程研究杂志出版内容重点：组织构建;骨细胞;软骨细胞;细胞培养;成纤维细胞;血管内皮细胞;骨质疏松;组织工程全文链接：     

Effect of rifampin on the immune response in mice.

In an investigation of the effect of rifampin on the immune response in mice, the cellular immunity was evaluated with the split-heart allograft technique. The survival time of the heart in animals treated with rifampin at a dose of 20 mg/kg per day from the day of the transplantation until the graft was rejected was longer (33.7 days, P less than 0.001) than that of animals not treated with antibiotics (14.5 days). When rifampin was given at a dose of 5 mg/kg per day for the same period, the mean survival time of allografts was 19.5 days. The number of demonstrable plaques of hemolysis and the humoral antibodies to sheep erythrocytes were also reduced by a human therapeutic dose (20 mg/kg per day). However, the suppression of the humoral immune response was probably of more limited biological significane, suggesting a differential sensitivity to rifampin. In contrast to rifampin, benzylpenicillin had no noteworthy inhibiting effect on the cellular or humoral immune response.     

Neuere Vorstellungen zu den Mechanismen der Abstoßungsreaktion nach Nierentransplantation

Summary Today, the success of kidney transplantation largely depends upon immunological factors. Despite the fact that the results of clinical transplantation have continuously improved within the last years, graft rejection is still a relatively frequent event. The fate of a transplant is primarily dependent upon differences in the histocompatibility antigens between donor and recipient. These differences are responsible for the intensity of the immunological reaction. After transplantation there is an activation of T- and B-lymphocytes in the recipient. In cooperation with a subpopulation of T-lymphocytes, the T-helper cells, cytotoxic effector cells are generated from a further subpopulation of T-lymphocytes. In addition, amplifier mechanisms of cellular and humoral immunity are activated in the course of a rejection reaction. Sensitized lymphocytes may secrete mediators which concentrate the non-spezific cells such as monocytes, granulocytes and lymphocytes in the transplant and lead to the functional activation of these effector cells. The activation of B-lymphocytes leads to maturation of antibody secreting plasma cells. Antibodies cause cytotoxic damage to the transplant, either with involvement of the complement system or through cells which produce antibody-dependent cytotoxicity. On the other hand, blocking antibodies, immune complexes or suppressor lymphocytes may have a protective effect on the transplant. The aim of this paper is to describe the present state of knowledge of these diverse mechanisms, their mutual interactions as well as their relevance for clinical transplantation. It is expected that a better understanding of the immune reactions involved will influence the diagnostic as well as the therapeutic procedures used in patients with graft rejection, thus leading to better results for kidney transplantation in the future.     

Vaccination against infectious disease following hematopoietic stem cell transplantation.

Patients undergoing hematopoietic stem cell transplantation (HSCT) experience a prolonged period of dysfunctional immunity associated with an increased risk of bacterial and viral infections. Effective approaches toward vaccinating patients against common pathogens are being explored but are limited by poor levels of responsiveness. Relevant studies examining the nature of reconstitution of cellular and humoral immunity and its impact on vaccination strategies against infectious pathogens are reviewed. Following transplantation, deficiencies in cellular immunity are characterized by the inversion of CD4/CD8 ratios, a decreased proliferative response to mitogens, and the development of anergy to recall antigens as measured by delayed-type hypersensitivity testing. The impact on humoral immunity consists of decreased levels of circulating immunoglobulin, impaired immunoglobulin class switching, and a loss of complexity in immunoglobulin gene rearrangement patterns. In this setting, a loss of protective immunity has been demonstrated against viral and bacterial pathogens previously targeted by childhood vaccination. Infections due to encapsulated bacterial organisms such as Streptococcus pneumoniae and Haemophilus influenzae type B remain prevalent even in the late posttransplantation period. The efficacy of vaccination following HSCT is influenced by the time elapsed since transplantation, the nature of the hematopoietic graft, the use of serial immunization, and the presence of graft-versus-host disease. Strategies to enhance vaccine efficacy include pretransplantation immunization of the stem cell donor and the use of cytokine adjuvants.     

Cell-to-cell transmission of retroviruses: Innate immunity and interferon-induced restriction factors

It has been known for some time that retroviruses can disseminate between immune cells either by conventional cell-free transmission or by directed cell-to-cell spread. Over the past few years there has been increasing interest in how retroviruses may use cell-to-cell spread to promote more rapid infection kinetics and circumvent humoral immunity. Effective humoral immune responses are intimately linked with innate immunity and the interplay between retroviruses and innate immunity is a rapidly expanding area of research that has been advanced considerably by the identification of cellular restriction factors that provide barriers to retroviral infection. The effect of innate immunity and restriction factors on retroviral cell-to-cell spread has been comparatively little studied; however recent work suggests this maybe changing. Here I will review some recent advances in what is a budding area of retroviral research.     

Intravenous immunoglobulin and plasmapheresis in acute humoral rejection: experience in renal allograft transplantation

Acute humoral rejection (AHR) in kidney transplantation is associated with higher rates of allograft loss when compared with acute cellular rejection (ACR). Treatment with intravenous immunoglobulin (IVIG) combined with plasmapheresis (PP) has been used recently in many centers. We report the incidence, clinical characteristics, and outcome of patients with AHR treated with IVIG and PP. All patients (n=519) at our institution who underwent kidney transplantation between January 1999 and August 2003 were retrospectively analyzed and classified according to biopsy results into three groups: AHR, ACR, and no rejection. AHR was diagnosed in 23 patients (4.5%) and ACR in 75 patients (15%). Mean follow-up was 844+/-23 days. Female sex, black race, and high panel-reactive antibody were risk factors for AHR. Most AHR patients (22 of 23) were treated with IVIG and PP. Two-year graft survival was numerically worse in patients with AHR versus ACR (78% vs. 85%, p=0.5) but the difference was not statistically significant. Graft survival after AHR treated with IVIG and PP is much better than it has been historically. IVIG in combination with PP is an effective treatment for AHR. Graft survival in this setting is similar to graft survival in patients with ACR.     

Donor-specific antibody against denatured HLA-A1: Clinically nonsignificant?

Pre-transplant screening of a woman with end-stage renal disease (ESRD) showed no anti-human leukocyte antigen (HLA) alloantibodies by anti-human globulin-complement-dependent cytotoxicity (AHG-CDC; class I) or enzyme-linked immunosorbent assay (class II). Following a negative AHG-CDC crossmatch, an HLA*01:01+ deceased donor (DD) kidney was transplanted in September 2005. Subsequent screening of pre-transplant serum by LABScreen Single Antigen (SA) array showed strong reactivity versus A*01:01. Despite that reactivity, at 5 years post-transplant, the patient has a serum creatinine of 1.6 mg/dl and has never experienced humoral or cellular rejection. Retrospective flow-cytometric crossmatch of pre- and post-transplant sera versus DD cells was negative. Rescreening of multiple pre- and post-transplant sera revealed anti-A1 reactivity persisting from the first through the last samples tested. The patient's anti-A1 was almost two fold more reactive with denatured A*01:01 FlowPRA SA beads after denaturation with acid treatment (pH 2.7) than with untreated beads. Parallel results were observed with pH 2.7 treated versus untreated A1+ T cells in FXM. These data highlight the difficulty in interpreting screening results obtained using bead arrays, because of antibodies that appear to recognize denatured but not native class I HLA antigens. We suggest that such bead-positive, flow cytometric crossmatch negative antibodies are not associated with humoral rejection, may not necessarily be detrimental to a graft, and deserve further evaluation before becoming a barrier to transplantation.     

Maintenance of cytomegalovirus (CMV) latency and host immune responses of long term renal allograft survivors. I. Prolonged suppression of in vitro lymphocyte responses against CMV infected fibroblasts related to previous secondary CMV infection.

Cytomegalovirus (CMV) specific humoral and cellular immunity was investigated in 16 renal allograft recipients with long term graft survival (26-122 months) who were shown to be CMV seropositive before transplantation. Results were compared with healthy individuals with latent CMV infections. Recipients (n = 9) who experienced a symptomatic secondary CMV infection shortly after transplantation (less than 6 months), showed a prolonged but finally temporary suppression of their in vitro lymphocyte memory responses against CMV infected fibroblasts (CMV-FF; median SI: 1.9), a persistence of high antibody titres against intracellular CMV antigens and most of them also had antibodies against CMV membrane antigens (CMV MA). In contrast the recipients (n = 7) who could maintain their CMV in latency after transplantation, had lower antibody titres and their in vitro memory lymphocyte responses against CMV-FF (median SI: 9.3) were comparable to those of the healthy controls (median SI: 11.6). The memory lymphocyte responses against purified CMV virions were depressed in both recipient groups. These results suggest that cellular immunity against CMV infected target cells constitute an important mechanism in maintaining CMV in latency after allografting.     

Complement activation and kidney transplantation; a complex relationship

Although kidney transplantation is the best treatment for end stage kidney disease, the benefits are limited by factors such as the short fall in donor numbers, the burden of immunosuppression and graft failure. Although there have been improvements in one-year outcomes, the annual rate of graft loss beyond the first year has not significantly improved, despite better therapies to control the alloimmune response. There is therefore a need to develop alternative strategies to limit kidney injury at all stages along the transplant pathway and so improve graft survival. Complement is primarily part of the innate immune system, but is also known to enhance the adaptive immune response. There is increasing evidence that complement activation occurs at many stages during transplantation and can have deleterious effects on graft outcome. Complement activation begins in the donor and occurs again on reperfusion following a period of ischemia. Complement can contribute to the development of the alloimmune response and may directly contribute to graft injury during acute and chronic allograft rejection. The complexity of the relationship between complement activation and allograft outcome is further increased by the capacity of the allograft to synthesise complement proteins, the contribution complement makes to interstitial fibrosis and complement’s role in the development of recurrent disease. The better we understand the role played by complement in kidney transplant pathology the better placed we will be to intervene. This is particularly relevant with the rapid development of complement therapeutics which can now target different the different pathways of the complement system. Combining our basic understanding of complement biology with preclinical and observational data will allow the development and delivery of clinical trials which have best chance to identify any benefit of complement inhibition.     

ELISpot assay as a sensitive tool to detect cellular immunity following influenza vaccination in kidney transplant recipients

Enhanced cellular immunity following influenza vaccination has been undetectable in kidney transplant recipients so far. Protection from influenza is dependent on cellular and humoral immunity. Aim of the study was to investigate immune responses before and after vaccination with influenza A and B antigens in 65 kidney transplant recipients. A significant increase in proliferative responses was only observed towards influenza B (P < 0.0001) by lymphocyte transformation test. The enzyme-linked immunospot (ELISpot) assay was more sensitive and detected significant, 3- to 5-fold increases (P < 0.0001) in interferon-gamma secretion using influenza A and B antigens. Furthermore, influenza antibody titers increased significantly (P < 0.0001). At month 1 post-vaccination 85% of patients displayed specific cellular, and 95% or 92% humoral immunity against influenza A and B, respectively. Thus, applying the sensitive ELISpot assay, influenza-specific cellular immunity could be detected for the first time in kidney transplant recipients after vaccination.     

Role of alloimmunity in clinical transplantation

HLA-specific humoral immunity, as a result of recipient allosensitization, induces hyperacute rejection of allogeneic kidney grafts. Cross-match tests are performed to avoid this complication. However, present techniques do not allow determination of HLA specificity of donor-reactive antibodies in the acute necro-donor situation. New methods are described and discussed in this communication as well as the alloantibody specificities which are of clinical importance. Alloantibodies not only mediate hyperacute rejection, but may also participate in the acute rejection of organ grafts. Clinical associations between early immunological complications, such as acute rejection, in heart, liver and kidney allografted patients and pre-transplantation humoral alloimmunity emphasize the need for proper determination of donor-specific humoral immunity prior to transplantation. Acute rejection episodes are associated with an increased risk of subsequent chronic rejection. Cytomegalovirus (CMV) infection is also an important risk factor for chronic organ graft rejection as well as for chronic graft-versus-host (GvH) disease in bone marrow transplanted patients. CMV infection triggers autoantibody formation against CD13 in transplanted patients which, in turn, has been shown to be associated with the development of chronic GvH disease. Recently, alloactivation of immune reactivity in vitro was found to induce reactivation of latent CMV infection. We present here a hypothesis to explain the series of clinically associated events: acute rejection--CMV infection--chronic rejection.     

Immunosuppression by murine sarcoma virus (Moloney)

Infection of mice with the murine sarcoma virus (Moloney) markedly suppressed the humoral antibody response to sheep erythrocyte antigen injected 10 days after infection, when tumor size was maximal, and on day 26, when primary tumors had partially regressed. Humoral antibody response was also inhibited when antigen was injected at the time secondary tumors and metastases were evident. No significant suppression of humoral antibody was seen when mice were injected with sheep erythrocyte antigen 5 days after virus infection. Inhibition of the cellular immune response of murine sarcoma virus (Moloney)-infected mice, as measured by the increased survival time of skin grafts, was also determined. Mice that were infected 5 days prior to grafting demonstrated prolonged survival of grafts, suggesting a suppression of cellular immunity. These mice had a graft survival time 14 days greater than noninfected controls. No significant prolongation of graft survival was seen in mice grafted at the times of maximum primary tumor growth, of primary tumor regression, or when secondary tumors had appeared.     

The generation and maintenance of serum alloantibody

Donor-specific alloantibodies (DSA) mediate hyperacute and acute antibody-mediated rejection (AMR), which can lead to early graft damage and loss, and are also associated with chronic AMR and reduced long-term graft survival. Such alloantibodies can be generated by previous exposure to major histocompatibility (MHC) antigens (usually via blood transfusions, previous allografts or pregnancy) or can occur de novo after transplantation. Recent studies also suggest that non-MHC antibodies, including those recognising major histocompatibility complex class I-related chain A (MICA), MICB, vimentin, angiotensin II type I receptor may also have an adverse impact on allograft outcomes. In this review, we consider how the dose, route and context of antigen exposure influences DSA induction and describe factors which control the generation, maintenance and survival of alloantibody-producing plasma cells. Finally, we discuss the implications of these variables on therapeutic approaches to DSA.     

TNF blockade abrogates the induction of T cell-dependent humoral responses in an allotransplantation model

TNF blockade modulates many aspects of the immune response and is commonly used in a wide array of immune-mediated inflammatory diseases. As anti-TNF induces anti-dsDNA IgM antibodies but not other antinuclear reactivities in human arthritis, we investigated here the effect of TNF blockade on the induction of TD humoral responses using cardiac allograft and xenograft models. A single injection of an anti-rat TNF antibody in LEW.1A recipients grafted with congenic LEW.1W hearts almost completely abrogated the induction of IgM and IgG alloantibodies. This was associated with decreased Ig deposition and leukocyte infiltration in the graft at Day 5. TNF blockade did not affect germinal-center formation in the spleen or expression of Th1/Th2 cytokines, costimulatory and regulatory molecules, and TLRs in spleen and graft of the recipient animals. Clinically, the abrogation of the induction of the alloantibodies was associated with a marked prolongation of graft survival. In contrast, anti-TNF did not alter acute xenograft rejection mediated by TI antibodies in a hamster-to-rat model. Taken together, these data indicate that TNF blockade abrogates the induction of TD humoral responses and accordingly, may have a beneficial effect in antibody-mediated inflammatory pathologies.     

Long-Term Follow-Up of Antibody Titers Against Measles,Mumps, and Rubella in Recipients of Allogenic Hematopoietic Cell Transplantation

Outbreaks of viral infections, such as measles, are regularly observed and pose a serious threat to recipients of allogeneic hematopoietic cell transplantation (HCT). The questions of how long cellular and humoral protective host immunity persists, and whether donor immunity can be transferred has not been clarified. Here we present a retrospective analysis of humoral immunity—serial antibody titers against measles, mumps, and rubella—in 331 patients who underwent allogeneic HCT at our single center between 2002 and 2015. Associations between the loss of protective antibody levels and clinical patient characteristics and transplantation parameters were examined. In general, antibody protection against measles persisted longer, with 72% of patients maintaining sufficient titers at 5 years post-HCT even without revaccination, while at that time only 65% and 50% of patients had protective immunity against rubella and mumps, respectively. The great majority of donors were seropositive for all 3 viruses; however, it appeared that donor humoral immunity could not be transferred and had no impact on post-HCT serostatus. Rather, the most relevant factor for persistent protective antibody titers against measles and rubella was whether patients were born before the introduction of the respective vaccine and thus were immunized by the wild-type disease-inducing virus instead of the vaccine. Moreover, the presence of moderate and severe chronic graft-versus-host disease (GVHD) was associated with more rapid loss of immune protection. In contrast, underlying disease, intensity of the conditioning regimen, use of antithymocyte globulin, age, and graft source had no influence on antibody titers. Overall, our findings suggest that the majority of antibodies against measles, mumps, and rubella originate from residual host cells, whereas donor immune status appears to have no influence on antibody protection post-HCT.     

Is secondary hyperparathyroidism-related myelofibrosis a negative prognostic factor for kidney transplant outcome?

Secondary hyperparathyroidism (HP) presenting with hypocalcemia and subsequent increased parathormone (PTH), is mainly identified in patients with chronic renal failure, which has been associated with variable degrees of bone marrow fibrosis.For suitable patients with end-stage renal disease (ESRD), kidney transplantation is recognized as the therapy of choice, being superior to dialysis in terms of quality of life and long-term mortality risk; in this regard interesting data show that increased time on dialysis prior to kidney transplantation is associated with decreased graft and patient survival.In our opinion an important and until now underestimated determinant of graft survival is the proper activity of bone marrow because of the emerging role of hematopoietic stem cells (HSC) in repair of ischemia/reperfusion (IR) damage. We postulate that in ESRD patients, who usually undergo long dialytic treatment, a myelofibrosis caused by an overt secondary HP could drastically decrease the HSC potential for IR damage repair after kidney transplant; this could irremediably lead to a delay in graft function with all related complicances.If the curative role of bone marrow-derived stem cells was confirmed by more data obtained in experimental animal models, it could be possible to try a cellular-based therapeutic approach in the management of ESRD patients which are in waiting list for a kidney transplant.