Bjoern Nashan

Cyclosporine Sparing with Mycophenolate Mofetil, Daclizumab and Corticosteroids in Renal Allograft Recipients: The CAESAR Study

Although the calcineurin inhibitors (CNI) cyclosporine (CsA) and tacrolimus are highly effective immunosuppressants, they are associated with serious side effects. There is great interest in immunosuppressive regimens that permit reduction or elimination of CNIs, while maintaining adequate immunosuppression and acceptable acute rejection rates. Patients (n = 536) receiving their first renal allograft were randomized to one of three immunosuppressant regimens: daclizumab, mycophenolate mofetil (MMF), corticosteroids (CS) and low‐dose CsA (target trough levels of 50–100 ng/mL), weaned from month 4 and withdrawn by month 6; daclizumab, MMF, CS and low‐dose CsA; or MMF, CS and standard‐dose CsA. Mean GFR 12 months after transplantation (primary end point) was not statistically different in the CsA withdrawal and low‐dose CsA groups (both 50.9 mL/min/1.73 m2) vs. the standard‐dose CsA group (48.6 mL/min/1.73 m2). At 12 months, the incidence of biopsy‐proven acute rejection was significantly higher in the CsA withdrawal group (38%) vs. the low‐ or standard‐dose CsA groups (25.4% and 27.5%, respectively; p < 0.05). In summary, a regimen of continuous low‐dose CsA with MMF, CS and daclizumab induction is a clinically safe and effective immunosuppressive regimen in renal transplant recipients.

Association of four DNA polymorphisms with acute rejection after kidney transplantation

Renal transplant outcomes exhibit large inter‐individual variability, possibly on account of genetic variation in immune‐response mediators and genes influencing the pharmacodynamics/pharmacokinetics of immunosuppressants. We examined 21 polymorphisms from 10 genes in 237 de novo renal transplant recipients participating in an open‐label, multicenter study [Cyclosporine Avoidance Eliminates Serious Adverse Renal‐toxicity (CAESAR)] investigating renal function and biopsy‐proven acute rejection (BPAR) with different cyclosporine A regimens and mycophenolate mofetil. Genes were selected for their immune response and pharmacodynamic/pharmacokinetic relevance and were tested for association with BPAR. Four polymorphisms were significantly associated with BPAR. The ABCB1 2677T allele tripled the odds of developing BPAR (OR: 3.16, 95% CI [1.50–6.67]; P = 0.003), as did the presence of at least one IMPDH2 3757C allele (OR: 3.39, 95% CI [1.42–8.09]; P = 0.006). BPAR was almost fivefold more likely in patients homozygous for IL‐10 ‐592A (OR: 4.71, 95% CI [1.52–14.55]; P = 0.007) and twice as likely in patients with at least one A allele of TNF‐α G‐308A (OR: 2.18, 95% CI [1.08–4.41]; P = 0.029). There were no statistically significant interactions between polymorphisms, or the different treatment regimens. Variation in genes of immune response and pharmacodynamic/pharmacokinetic relevance may be important in understanding acute rejection after renal transplant.

Effects of everolimus on cellular and humoral immune processes leading to chronic allograft nephropathy in a rat model with sensitized recipients.

Background. Chronic allograft nephropathy (CAN) remains the most common cause of late graft loss especially in sensitized patients. The aim of this study is to evaluate the therapeutic effect of everolimus on cellular and humoral mechanisms of chronic allograft damage in a rat model with sensitized recipients. Methods. F344 kidneys were transplanted to LEW.RNU rats. The athymic recipients were reconstituted with 3.5×107 or 5×107 presensitized CD4+T-lymphocytes. In the treatment group, everolimus was introduced five weeks posttransplantation. Rats were monitored for peripheral blood lymphocytes, renal function, histological changes in the graft, and the development of donor-specific alloantibodies. Results. Rats developed cell dose-dependent renal failure. Increased urinary albumin excretion and glomerulopathy were frequently accompanied by the development of donor-specific major histocompatibility complex (MHC) alloantibodies. In the everolimus group, five of six animals survived for 20 weeks with stable serum creatinine and displayed neither acute cellular rejection nor CAN. Prolonged survival was accompanied with significantly reduced tubulointerstitial cell infiltrate in the graft. Increased urinary albumin excretion was present in all, acute tubular necrosis in five of six, and glomerular sclerosis in two grafts. MHC alloantibodies were found in four of six animals. Conclusion. The used rat model offers the opportunity to study the influence of everolimus on the interaction of humoral and cellular mechanisms involved in chronic renal damage. Everolimus leads to a prolongation of allograft survival, reduced cell infiltrate in the graft, and prevents tubular atrophy and interstitial fibrosis. The development of alloantibodies and albuminuria was not prevented. These data suggest that although cellular rejection is clearly suppressed, humoral mechanisms of CAN cannot be completely controlled by everolimus treatment in the sensitized rat model.

Sinusoidal Obstruction Syndrome of the Liver after Hematopoietic Stem Cell Transplantation: Decision Making for Orthotopic Liver Transplantation

Sinusoidal obstruction syndrome (SOS) is a specific complication of hematopoietic stem cell transplantation (HSCT) that can lead to substantial morbidity and treatment-related mortality. Heparin is frequently used as prophylaxis of and defibrotide as therapy for mild to moderate SOS. In severe cases of SOS these therapies are often ineffective, and orthotopic liver transplantation (OLT) may be the only option. Reports in the literature about the outcome of liver transplantation for SOS are contradictory. We describe our second case of OLT after HSCT. The patient died of intracranial hemorrhage 2 weeks after liver transplantation with good initial organ function. In the first case at our center, however, the patient survived more then 8 years. The reported short-to medium-range survival rate for OLT following HSCT is approximately 50%. On the basis of the experience at our center and the findings in a review of the literature, we developed a rational approach to the selection for liver transplantation of patients with life-threatening liver dysfunction after marrow transplantation.

Induction of chronic renal allograft injury by injection of a monoclonal antibody against a donor MHC Ib molecule in a nude rat model.

BACKGROUND Chronic allograft injury induced by immunological as well as non-immunological mechanisms is still a major cause of long-term graft loss after renal transplantation. Major histocompatibility complex (MHC) incompatibilities as well as donor-specific alloantibodies are known risk factors, but the interaction of cellular and humoral mechanisms leading to allograft damage remains to be defined. The aim of this study was to analyze the impact of donor-specific post-transplant antibodies against a non-classical MHC Ib antigen apart from T-cell-dependent immune response. Therefore, we utilized a transplant rat model injecting a moAb directed against a donor MHC Ib molecule into athymic nude recipients lacking an immunocompetent T-cell system. METHODS F344 kidneys were transplanted into LEW.RNU rats. Donor and recipient differ in the RT1.C locus (MHC Ib) but are phenotypically identical for the RT1.A (MHC I) and RT1.B/D (MHC II) loci. A moAb directed against the donors RT1.C(lv1) was injected into recipients with stable graft function. A control group remained untreated after transplantation. The rats were monitored for renal function and grafts were analyzed for morphological changes, infiltrating cells and C4d deposition. RESULTS Antibody-infused rats developed renal impairment with massive urine albumin excretion. Histological changes consistent with antibody-mediated injury were interstitial fibrosis, tubular atrophy and severe glomerulopathy accompanied by an infiltrate of numerous macrophages. At time of death, grafts were negative for C4d at the peritubular capillaries and arterial endothelium. CONCLUSION Antibodies directed against a MHC Ib antigen are able to induce allograft injury in T-cell-deficient rats. This model underlines the role of non-classical MHC disparities for long-term allograft survival and demonstrates the long-term results of antibody-induced allograft damage.

Chronic allograft nephropathy in athymic nude rats after adoptive transfer of primed T lymphocytes

The impact of presensitized T lymphocytes on the development of chronic allograft nephropathy (CAN) was investigated in nude athymic LEW.RNU recipients of F344 renal allografts. The recipients (n = 8) were reconstituted with 5 × 107 T lymphocytes primed against donor skin grafts to induce graft rejection. LEW.RNU (n = 8) and euthymic LEW recipients (n = 6) which underwent no further intervention after transplantation served as control groups. Adoptive transfer of primed T cells induced CAN in LEW.RNU rats. Their kidney function decreased progressively. After 90 days a moderate glomerulopathy, tubular atrophy and interstitial fibrosis were observed, vascular changes were only mild or absent. Cellular infiltrates were predominated by CD4+ T cells and ED1+ macrophages. Deposition of tenascin and laminin was enhanced. Grafts of euthymic recipients displayed only mild signs of CAN according to the Banff criteria. These data implicate an important role for the cellular immune response in the development of CAN.

Induction of chronic renal allograft dysfunction in a rat model with complete and exclusive MHC incompatibility

Chronic allograft dysfunction is one of the most important reasons for late graft loss after renal transplantation. Its etiology is multifactorial and combines immunological as well as non-immunological mechanisms. It is known from large registry data that MHC mismatches are inversely correlated to long term allograft survival. Although this is a well known aspect, the mechanisms of MHC-driven graft damage and the impact of other immunological factors leading to chronic rejection are poorly understood. In patients it is impossible to study MHC mismatches without considering non-MHC differences. Further more common animal models for chronic rejection are all characterized by non-MHC as well as MHC disparities. To exclusively study MHC mediated immunoresponses we established a rat model of renal transplantation using congenic rat strains differing in their entire MHC class I and class II, but sharing the genetic background of the LEW rat. After an initial short term of immunosuppression all animals developed renal impairment with severe albuminuria. Half of the animals died of renal failure in week 7 to 14 and showed pathological characteristics of chronic allograft damage including IF/TA and severe glomerulopathy. The majority of these recipients developed circulating donor-specific MHC alloantibodies. Allografts were significantly infiltrated with T-cells, macrophages and NK-cells. We established a MHC congenic rat model to investigate immunological mechanisms of chronic renal allograft rejection exclusively induced by a complete MHC mismatch. We demonstrated humoral as well as cellular immunoresponses leading to chronic allograft loss in 50% of animals.