Combined induction therapy with rabbit antithymocyte globulin and rituximab in highly sensitized renal recipients.

Compared to non-sensitized renal transplant recipients, patients with preformed alloantibodies are at greater risk of cellular and humoral rejection and premature graft failure. We explored the effects of adding B-cell depleting agent (rituximab) to standard rabbit anti-thymocyte globulin (rATG) induction regimen for patients with panel reactive antibody levels >50%. Following induction therapy, 14 recipients were given two doses of rituximab (375 mg/m(2)) within the first month post-transplantation. Their long-term outcomes were compared to a historical control group of 23 recipients who received rATG alone. Graft survival at 5 years was superior with combination therapy compared to induction therapy alone (92.9 versus 48.3%, respectively, p = 0.02). While 30% of the rATG alone group experienced cellular rejection and 26% humoral rejection, none of rituximab plus rATG renal transplant recipients group had rejection. Thus, addition of rituximab to rATG provided superior outcomes to rATG alone. This combination induction therapy should be considered for a high-risk population.

In vitro cytokine changes after pediatric liver transplantation.

BACKGROUND: Patients with chronic liver disease have been shown to have impaired immune statuses. Liver transplantation (LT) is the standard treatment for end-stage liver disease patients and immunosuppressive drugs are commonly used to prevent graft rejection. There is an increasing evidence of de novo food allergies post LT. OBJECTIVE: To investigate the cytokine response of peripheral blood mononuclear cells (PBMCs) of pediatric LT recipients before and six months after transplantation. METHOD: PBMCs collected before and six months after LT were stimulated with phytohemagglutinin (PHA), beta-lactoglobulin (BLG), tacrolimus (Tac), dexamethasone (Dex), and a combination of BLG and Dex (B+D), BLG and Tac (B+T), BLG and Tac plus Dex (B+T+D). Culture supernatants were measured for IL-5, IFN-γ and IL-10. Blood for liver function tests, complete blood counts, total IgE and specific IgE (sIgE) to cow's milk were recorded. RESULTS: A total of five pediatric LT recipients were enrolled in the study. There were no food allergy cases. Total IgE and sIgE to cow's milk decreased significantly after LT. After transplantation, there was a significant increase in IL-5, IFN-γ and IL-10 in culture supernatants of PHA-stimulated PBMCs. Among different stimulations in post transplantation's PBMCs, the level of IL-5 significantly increased in B+D was suppressed with the combination of B+T+D. The level of IL-10 significantly increased in all conditions containing BLG both before and after transplantation. CONCLUSION: There was an improvement of the in vitro-cytokine responses after liver transplantations. Immunosuppressive drugs used in post transplantation had an effect on the cytokine responses.

Dynamic reciprocity in cell-scaffold interactions.

Tissue engineering in urology has shown considerable promise. However, there is still much to understand, particularly regarding the interactions between scaffolds and their host environment, how these interactions regulate regeneration and how they may be enhanced for optimal tissue repair. In this review, we discuss the concept of dynamic reciprocity as applied to tissue engineering, i.e. how bi-directional signaling between implanted scaffolds and host tissues such as the bladder drives the process of constructive remodeling to ensure successful graft integration and tissue repair. The impact of scaffold content and configuration, the contribution of endogenous and exogenous bioactive factors, the influence of the host immune response and the functional interaction with mechanical stimulation are all considered. In addition, the temporal relationships of host tissue ingrowth, bioactive factor mobilization, scaffold degradation and immune cell infiltration, as well as the reciprocal signaling between discrete cell types and scaffolds are discussed. Improved understanding of these aspects of tissue repair will identify opportunities for optimization of repair that could be exploited to enhance regenerative medicine strategies for urology in future studies.

Surface modification and drug delivery for biointegration.

Biointegration refers to the interconnection between a biomedical device and the recipient tissue. In many implant devices, the lack of proper biointegration can cause device failure and potentially serious medical problems. This review summarizes the recent progress in surface chemistry, drug delivery and antifouling methods to improve the biointegration of implants. Much progress has been made as our understanding of biological systems and material properties expands and as new technologies become available. This article addresses methods of enhancing biointegration by means of modifying implant surface chemistry and by drug-delivery approaches.

The effect of two different polyethylene glycol (PEG) derivatives on the immunological response of PEG grafted pancreatic islets.

Islet transplantation is one of the promising ways to treat diabetes. To reduce the immune system response, several methods have been developed, a novel one being the grafting of methoxy polyethylene glycol (mPEG) derivatives onto collagen capsules of islets. In this study, the effects of the first and second generations of activated mPEG on the immunological response of polyethylene glycol (PEG) grafted pancreatic islets were studied. mPEG-Succinimidyl carbonate (mPEG-SC) and mPEG-succinimidyl propionic acid (mPEG-SPA) (with nominal molecular weight 5 kDa), typical of the first and second generations of activated mPEG, were selected, respectively. Both activated mPEGs did not affect the morphology, viability, or functionality of PEGylated islets compared to free islets (naked islets). The amount of IL-2 secreted from lymphocytes co-cultured with mPEG-SPA grafted islets (131.83 ± 15.28 pg/ml) was not significantly different from that with mPEG-SC grafted islets (156.09 ± 27.94 pg/ml). These results indicated that both mPEG-SC and mPEG-SPA had the same effect for camouflaging Langerhans islets, but the former is more suitable due to its easier synthesis process.

Low-molecular-weight heparins do not modify obliterative airway disease in rat tracheal allografts.

Immunosuppressive and antiproliferative effects of heparin may be beneficial in the field of solid organ transplantation. The aim of this study was to examine the effect of low-molecular-weight heparin (LMWH) compounds on the development of obliterative airway disease (OAD) in the rat tracheal transplant model. Allogenic heterotopic tracheal transplantations were performed from Brown-Norway into Lewis rats. Recipients were treated either with nadroparin, enoxaparin, parnaparin, or vehicle from day 0 until harvesting at day 7 or 21. Graft rejection was morphometrically assessed to determine the extent of luminal obliteration end epithelial necrosis. All tracheal grafts harvested at day 7 demonstrated nearly equivalent degree of luminal obstruction regardless of treatment regimen. Likewise, at day 21 the extent of airway narrowing and the degree of inflammatory cell infiltration were similar among the groups. Moreover, loss of airway epithelium was not prevented by LMWH treatments. Finally, intragraft mRNA expression for transforming growth factor-ß1 and platelet-derived growth factor-A, interleukin-2, interferon-γ, and monocyte chemoattractant protein-1 did not differ between the groups. In contrast with findings in other animal models, treatment with LMWH preparations did not modify the development of OAD in rat tracheal allografts.

Novel strategies for immune monitoring in kidney transplant recipients.

The ongoing quandary in kidney transplantation is discovering methods to prolong graft survival. To achieve this, there is a search for optimal methods to use immunosuppressive therapy, where rejection and chronic graft damage is minimized without causing an increased risk of infections, malignancy, or toxicities. The purpose of this review was to discuss the limitations of current immunosuppressant drug monitoring as well as the clinical application of novel methods of monitoring both immunosuppressants and the immune reaction within the allograft.

In situ activation and expansion of host tregs: a new approach to enhance donor chimerism and stable engraftment in major histocompatibility complex-matched allogeneic hematopoietic cell transplantation.

Host antidonor effector T cells represent a major barrier to the successful engraftment of allogeneic donor hematopoietic progenitor and stem cells. Here, administration of a complex of IL-2 and anti-IL 2 antibodies (IAC) significantly enhanced donor chimerism early as well as long-term engraftment following reduced-intensity conditioning (RIC) and allogeneic major histocompatibility complex (MHC)-matched hematopoietic cell transplantion (HCT). Timing of administration of this complex was crucial: administration of IAC post-HCT more efficiently facilitated marrow engraftment than pre-HCT treatment. Donor chimerism persisted to >6 months post-HCT. Importantly, this approach clearly suppressed the emergence of host antidonor CD8 T cells 2 to 3 weeks post-HCT as assessed by tetramer staining. Following in vivo reactivation of IAC-treated and control recipients at >5 months post-HCT with donor antigen, only PBS-treated control marrow allograft recipients responded with tetramer-binding CD8 cells. In total, the present findings support the notion that the transient activation and expansion of host Tregs in situ post-HCT can be explored as a new approach to regulate host alloreactivity posttransplant. Interestingly, direct stimulation of recipient Treg cells in RIC recipients obviated a requirement for exogenous Treg cell transfusion in this model and may represent a viable alternative to, and/or complement the adaptive transfer of Treg populations in clinical HCT.

The role of graft and host accommodation in a hamster-to-rat cardiac transplantation model.

BACKGROUND: We evaluated the importance and mechanism of graft and host accommodation in hamster-to-rat cardiac xenotransplantation models. METHODS: To evaluate graft accommodation, accommodated hamster grafts (Group 2) were transplanted to naïve host rats treated with FK506, and compared with naïve hamster grafts (Group 1). To evaluate host accommodation, three groups were evaluated: naive hamster hearts were transplanted to naïve hosts treated with FK506 (Group 3: 0.5 mg/kg, Group 4: 1.0 mg/kg) and splenectomy, and compared with accommodating hosts (Group 5) with FK506 0.5 mg/kg and splenectomy. We examined graft survival, histopathology, antihamster antibodies and B-1 cells in blood. RESULTS: Graft survival in Group 2 (3.4+/-0.9 days) was not significantly different from that in Group 1 (2.8+/-0.4 days). Graft survival in Groups 4 and 5 (>30 days) was significantly prolonged compared with that in Group 3 (6.0+/-0.7 days). Histopathology of Groups 1-3 showed humoral rejection, whereas Groups 4 and 5 showed normal histology and expression of protective genes. In Groups 1-3, antihamster immunoglobulin (Ig) M and B-1 cells increased significantly compared to Groups 4 and 5, where IgM and B-1 cells remained low or were reduced. CONCLUSIONS: Host accommodation was more important than graft accommodation. Accommodating grafts expressing protective genes were rejected with an elevation of both IgM and B-1 cells. In accommodated hosts, both IgM and B-1 cells decreased, suggesting that B-1 cells may be responsible for the production of antihamster antibodies. These results suggest that sufficient suppression of B-1 cells, resulting in decreased titers of antihamster antibodies, may play an important role in host accommodation.

IL-7-mediated protection against minor-antigen-mismatched allograft rejection is associated with enhanced recovery of regulatory T cells.

BACKGROUND AND OBJECTIVES: Interleukin-7 (IL-7) has been studied for its possible immunorestorative capacities following stem cell transplantation and has been shown to enhance post-transplant immune recovery predominantly by peripheral T-cell expansion. A major concern of IL-7 is its possible aggravating effect on graft-versus-host and host-versus-graft reactivity. DESIGN AND METHODS: To study the effect of IL-7 on host-versus-graft reactivity, we applied IL-7 in an experimental transplantation model using RAG-1-/- mice supplied with B6 CD45.1 congenic T cells as recipients of T-cell depleted allogeneic bone marrow grafts. RESULTS: Rejection of minor antigen-mismatched bone marrow was significantly reduced in IL-7 treated recipients compared with PBS treated control mice. Rejection was observed in 2 out of 18 IL-7 treated mice compared with 9 out of 17 PBS treated mice (11% vs. 53%; p=0.012). IL-7 administration resulted in enhanced recovery of peripheral blood CD4+CD25+ regulatory T cells (Treg) with a concomitant increase in peripheral blood Foxp3 mRNA expression. IL-7Ra (CD127) was expressed by the vast majority of CD4+Foxp3+ T cells. The incidence of graft rejection following fully MHC mismatched bone marrow transplantation was not reduced nor enhanced by IL-7 administration. INTERPRETATION AND CONCLUSIONS: Post-transplant IL-7 administration protects against minor antigen-mismatched bone marrow rejection, which may be due to enhanced Treg recovery.

Granulocyte colony-stimulating factor prior to nonmyeloablative irradiation decreases murine host hematopoietic stem cell function and increases engraftment of donor marrow cells.

The use of nonmyeloablative conditioning prior to bone marrow transplantation is an important component of transplantation-based therapies for nonmalignant blood diseases. In this study, treatment of recipient mice with granulocyte colony-stimulating factor (G-CSF) prior to low-dose total body irradiation (LD-TBI) enhanced long-term engraftment of freshly isolated congenic marrow 1.5- to 2-fold more than treatment with LD-TBI alone. This combined regimen was also evaluated in a mouse model of X-linked chronic granulomatous disease (X-CGD), where neutrophils have a defective NADPH oxidase due to genetic deletion of the gp91(phox) subunit. Long-term engraftment of male X-CGD bone marrow cells cultured ex vivo for retroviral transduction of gp91(phox) was enhanced by approximately 40% when female X-CGD recipients were pretreated with G-CSF prior to 300 cGy. These data confirm that sequential treatment with G-CSF and LD-TBI prior to transplantation increases long-term engraftment of donor marrow, and they extend this approach to transplantation of murine donor marrow cultured ex vivo for gene transfer. Additional studies showed that the administration of G-CSF prior to LD-TBI did not alter early homing of donor marrow cells. However, the combined regimen significantly decreased the content of long-term repopulating cells in recipient marrow compared with LD-TBI alone, as assessed in competitive assays, which may contribute to the enhanced engraftment of donor marrow cells. Disclosure of potential conflicts of interest is found at the end of this article.

Differential sensitivity of T lymphocytes and hematopoietic precursor cells to photochemotherapy with 8-methoxypsoralen and ultraviolet A light.

The combination of 8-methoxypsoralen (8-MOP) and long wave ultraviolet radiation (UV-A) has immunomodulatory effects and might abolish both graft-vs-host and host-vs-graft reactions after allogeneic hematopoietic stem cell transplantation. In the present study, we have confirmed the sensitivity of T lymphocytes to 8-MOP treatment plus UV-A exposure as evidenced by the abrogation of the alloreactivity in mixed lymphocyte cultures as well as the inhibition of the response to phytohemagglutinin A. However, the clonogenic capacity of the bone marrow hematopoietic progenitors was inhibited with UV-A doses lower than the doses needed to inhibit T-lymphocytes alloreactivity. Moreover, long-term bone marrow cultures showed that 8-MOP plus UV-A treatment had detrimental effects on the more immature bone marrow stem cells. These data were confirmed when murine bone marrow graft was treated with 8-MOP, exposed to UV-A, then transplanted into semiallogeneic recipient mice. The treated cells could not maintain their clonogenic capacity in vivo resulting in death of all animals. Taken together, these data show that ex vivo 8-MOP plus UV-A treatment of the marrow graft cannot be used to prevent post-bone marrow transplantation alloreactivity.

Clinical significance of recipient antibodies to stem cell donor mismatched class I HLA antigens.

A stem cell transplant candidate whose best-matched related donor had a mismatch for A68 by virtue of the patient's maternal human leukocyte antigen A/B (HLA-A/B) recombinant haplotype, was referred to Wilford Hall Medical Center for transplantation. She was determined prior to transplant to have a high-titered antibody to that HLA type and to several crossreactive antigens (A2 and A24). When she initially failed to engraft, plasmapheresis was tried three times with no effect on the antibody titer. Subsequently, plasmapheresis followed by intravenous immunoglobulin treatment and retransplant completely eliminated the donor-specific antibody. Engraftment occurred, and several weeks after the second transplant antibodies to A68 could no longer be detected although the antibodies to other HLA types were still present. This case report should serve to remind stem cell transplant programs of the importance of checking for the presence of recipient antibodies to donor-mismatched antigens and suggests that patients with such antibodies be treated prior to transplant.

Synergistic effects of RAD and Neoral in inhibition of host-vs.-graft and graft-vs.-host immune responses in rat small-bowel transplantation.

The combined effects of RAD and Neoral were tested in a rat orthotopic small-bowel transplantation model. Seven groups (n = 6) were involved in this study, and each one was included in three rejection models for the evaluation of host-vs.-graft disease (HVG) (LBN-F1 to LEW), graft-vs.-host disease (GVH) (LEW to LBN-F1), and combined HVG and GVH immune responses (BN to LEW). Both drugs were administered orally throughout the study. Low doses of RAD (1.0-2.5 mg/kg/day) combined with Neoral (2.0-5.0 mg/kg/day) produced strong synergistic effects in the prolongation of small-bowel graft survival in HVG (combination index, CI = 0.095, 0.1212), GVH (CI = 0.027, 0.020), and combined HVG and GVH immune responses (CI = 0.070, 0.301). The combination therapy of RAD and Neoral produces a strong synergistic effect toward the inhibition of HVG, GVH, and combined HVG and GVH immune responses in a rat small-bowel transplantation model.

Copolymer 1 inhibits manifestations of graft rejection.

BACKGROUND: Copolymer 1 (Cop 1) was previously shown to prevent graft-versus-host disease and interfere in various manifestations of immune rejection. In this study, we tested whether Cop 1 can also hinder the reactivity of host against graft and inhibit graft rejection. METHODS: Cop 1 was tested in two transplantation systems: skin and thyroid grafting assays. The effect of Cop 1 on T cell reactivity was investigated by proliferation and cytokine secretion of spleen and lymph node cells from transplanted mice, as well as the T cell lines generated therefrom. RESULTS: Cop 1 treatment prolonged skin graft survival and inhibited the functional deterioration of thyroid grafts, in various strain combinations, across minor and major histocompatibility barriers, similarly to the potent immunosuppressive drug FK506. Cop 1 inhibited the proliferation of graft-specific T cell lines, as well as their interleukin (IL)-2 and interferon-gamma (IFN-gamma) secretion, when incubated in vitro with the stimulating allogeneic cells. Spleen and lymph node cells from Cop 1-treated mice, as well as the T cell lines generated from them, demonstrated a pronounced inhibition of proliferation and secretion of T helper (Th)1 cytokines in response to graft cells. In addition, cells from Cop 1-treated mice secreted high amounts of Th2 cytokines in response to Cop 1 and small but significant amounts of Th2 cytokines, mainly IL-10, in response to allograft cells. CONCLUSIONS: Cop 1 treatment inhibited the Th1 response to graft and induced a Th2 cytokines secretion in response to both Cop 1 and graft cells, leading to improved survival and function of the transplanted grafts.

Use of allochimeric proteins to mitigate graft-versus-host and host-versus-graft immune responses to rat small bowel allografts.

BACKGROUND: We aimed to identify the polymorphic epitopes that mitigate graft-versus-host disease (GvHD) and host-versus-graft response (HvGR) toward rat small bowel allografts in rats. METHODS: We tailored class I major histocompatibility complex (MHC) allochimeric antigens encoding 10 al-helical (alpha(1h)l58-80-RT1.Aa) or 4 (alpha(1h)l/u62-69-RT1.Aa) polymorphic amino acids. In the GvHD model, ACI (RT1a) donors were pretreated (day -14) with an intrathymic injection of alpha(1h)l58-80-RT1.Aa, alpha(1h)l/u62-69-RT1.Aa, or RT1.Al protein, with or without simultaneous intravenous injection of anti-T-cell receptor R73 monoclonal antibodies. Wistar-Furth (WF; RT1u) donors were tested with a similar protocol. In the HvGR model, ACI recipients were treated with a protocol designed to induce transplantation tolerance toward WF heart allografts: a portal vein injection of alpha(1h)l/u62-69-RT1.Aa protein and cyclosporine (4 mg/kg, intramuscular; days 0-6). RESULTS: GvHD was prevented in all (ACI x LEW) F1 recipients (RT1a/l) by pretreating ACI donors with R73 monoclonal antibody and recipient RT1.Al or alpha(1h)l58-80-RT1.Aa protein. Similarly, pretreatment of WF donors with RT1.Aa protein also prevented GvHD in (ACI x WF) F1 recipients. However, in a combined GvHD/HvGR model, ACI recipient perioperative treatment designed to prevent HvGR only modestly prolonged WF small bowel allograft survival (27.7+/-5.3 days compared to 17.4+/-4.6 days in the cyclosporine-alone group). In contrast, application of the two protocols significantly prolonged WF allograft survival (55.6+/-34.6 days), with two of seven recipients surviving more than 100 days. CONCLUSION: Simultaneous inhibition of GvHD and HvGR significantly prolongs small bowel allograft survival.

Nonmyeloablative transplants: preclinical and clinical results.

Conditioning regimens have been intensified to a level at which organ toxicties are dose-limiting, which restricts the application of hematopoietic stem cell transplants to relatively young patients in otherwise good clinical condition. Studies done in a canine model have demonstrated that stable allogeneic mixed donor/host hematopoietic chimerism can be established by the administration of a sublethal dose of 2.0 Gy total body irradiation followed by immunosuppression with mycophenolate mofetil and cyclosporine after major histocompatibility complex-identical marrow transplantation. Both host-versus-graft and graft-versus-host reactions are controlled with mycophenolate mofetil and cyclosporine, which results in a stable state of graft/host tolerance manifested by stable mixed donor/ host hematopoietic chimerism. Current efforts are directed at replacing pretransplant radiation by anti-T-cell reagents, such as antibodies to T cells, or by purine antagonists, such as pentostatin (Nipent; SuperGen, San Ramon, CA). Given the minimal toxicity of this approach in dogs, a clinical study was initiated that uses an almost identical conditioning regimen. Thus far, 26 patients have been treated. Results to date indicate that this is a well-tolerated procedure that can be performed entirely in an outpatient setting. All patients have shown primary engraftment with persistence of mixed or full donor chimerism present through at least 2 months after transplant. Three patients experienced nonfatal graft rejection between 2 and 3 months after transplant, with a return to baseline peripheral counts over the subsequent 1 to 2 months. Acute graft-versus-host disease developed in 10 of 24 evaluable patients, occurring only after discontinuation of mycophenolate mofetil, and was controlled with additional immunosuppression in all cases. Overall, this novel nonmyeloablative conditioning regimen has been well tolerated and has encouraged us to investigate these transplants in other clinical settings, including using HLA-matched unrelated donors.

Mixed chimerism: preclinical studies and clinical applications.

Traditional approaches to allogeneic stem cell transplantation have relied on the use of toxic high-dose conditioning therapy to achieve allogeneic engraftment and control of underlying disease. Preclinical observations have shown that, for engraftment purposes, conditioning regimens can be reduced in intensity, resulting in reduced treatment toxicities. In preclinical canine studies, the use of potent pre- and postgrafting immunosuppression allowed for reduction in conditioning regimens and development of stable mixed chimerism. If these newer approaches using attenuated conditioning regimens can be successfully applied to human transplantation, an improved safety profile will allow potentially curative treatment of patients not currently offered such therapy. Mixed chimerism per se could prove curative of disease manifestation for various nonmalignant disturbances of the hematopoietic and immune systems. For patients with malignancy, infusion of additional donor lymphocytes may be needed to effectively treat underlying disease.