Improving immune reconstitution while preventing graft-versus-host disease in allogeneic stem cell transplantation

Proliferation-based T-cell selection for immunotherapy and graft-versus-host-disease prophylaxis in the context of bone marrow transplantation

Graft-versus-host disease (GvHD) caused by alloreactive T cells within the graft is a major drawback of allogeneic BMT, but depletion of T cells leads to higher rates of relapse, opportunistic infections and graft failure. Therefore, selective removal of GvHD-inducing alloreactive T cells might be beneficial. We describe here the separation of alloresponsive T cells, based on carboxyfluorescein succimidyl ester labeling, in vitro allostimulation and FACS-sorting. In vivo effects of the separated cell populations were investigated in the context of allogeneic BMT in murine models: in vitro resting T cells were shown to survive in the allogeneic host and retain immunoreactivity against 'third-party' antigens. As demonstrated in two different transplantation models, elimination of proliferating cells significantly reduces GvHD but offers no advantages to using T-cell-depleted bone marrow alone concerning engraftment and tumor control. Transplanting T cells that proliferate in response to tumor antigens in vitro may narrow down the spectrum of antigens recognized by T cells and therefore reduce GvHD while maintaining graft-facilitating function and tumor control. Therefore, selecting tumor-reactive T cells on the basis of their proliferative response in vitro may be beneficial for the recipient, less time consuming than T-cell cloning and still reduce the extent of GvHD.

Graft-versus-Host Disease after Allogeneic Stem Cell Transplantation: Evolving Concepts and Novel Therapies Including Photopheresis

Graft-versus-host disease (GVHD) remains a source of significant morbidity and mortality in the setting of allogeneic stem cell transplantation. Improving outcomes in stem cell transplant recipients will require additional therapeutic modalities for GVHD, especially for those patients who fail to respond to initial therapy with steroids. This article provides an introduction to accompanying articles in this issue of Biology of Blood and Marrow Transplantation concerning the current state of GVHD management with an emphasis on the role of extracorporeal photopheresis as a therapeutic modality. Topics discussed include challenges associated with the design of clinical studies of GVHD therapies, the efficacy of and proposed mechanisms of photopheresis in the setting of GVHD, and our emerging understanding of regulatory T cell biology as it relates to allogeneic stem cell transplantation.

Prospective monitoring of tumor necrosis factor alpha and interferon gamma to predict the onset of acute and chronic graft-versus-host disease after allogeneic stem cell transplantation

Peripheral blood T cells were isolated from 19 allogeneic and 4 autologous stem cell transplant (SCT) recipients and assessed for tumor necrosis factor (TNF)-alpha and interferon (IFN)-gamma transcription by reverse transcription-polymerase chain reaction. Levels were compared with resting donor T-cell transcription levels. Increased production of TNF-alpha predicted for the onset of severe (grade II-IV) graft-versus-host disease (GVHD) (P = .001). Increased TNF-alpha (P = .025) and IFN-gamma (P = .001) transcription also independently predicted for the eventual onset of extensive chronic GVHD. Increased TNF-alpha or IFN-gamma transcription was not seen in either a syngeneic SCT recipient or 4 autologous SCT controls. These findings provide a means by which GVHD can be predicted before it is clinically evident, thus allowing for accurate diagnosis and monitoring of GVHD and possibly more cost-effective management of post-SCT immunosuppression.

Donor stem cell infusion after non-myeloablative conditioning for tolerance induction to HLA mismatched adult living-donor liver graft

BACKGROUND AND AIM OF THE STUDY

The induction of transplantation tolerance, defined as the survival of a functioning allograft in the absence of continuing immunosuppressive therapy, would be a major advance. Clinical and experimental data have shown that transplantation tolerance could be induced by pre-transplant myeloconditioning and infusion of donor hematopoietic cells. We investigated the feasibility and safety of a protocol to induce tolerance to HLA mismatched living-donor liver graft by pre-transplant non-myeloablative conditioning followed by donor stem cells (SC) infusion, in patients with advanced liver cancers.

PATIENTS AND METHODS

Two patients with intrahepatic cancers who did not fulfill criteria for cadaver liver transplantation were included in the study. Preparative regimen consisted in cyclophosphamide and anti-thymocyte globulin, followed by infusion of purified donor CD34(+) stem cells. Living-donor liver transplantation (LDLT) using the liver right lobe was performed after hematological reconstitution, respectively 40 and 55 days after donor stem cell infusion. Immunosuppressive therapies were discontinued when liver graft function returned to normal.

RESULTS

The procedure could be completed in the two patients. No severe toxicity of the preparative regimen was observed. Neither patient presented graft versus host reaction after donor stem cell infusion. A transient macrochimerism was observed in the first case, while no chimerism could be detected in the second. Immunosuppression was discontinued, respectively 90 and 28 days, after liver transplantation, without subsequent rejection episode. In the two cases, liver function remained normal for the study period. In both patients, the period of immune reconstitution was prolonged, as illustrated by persisting low CD4(+) cell counts. Mixed lymphocyte cultures, performed after immunosuppression withdrawal, demonstrated donor specific hyporesponsiveness in the first case, but in a context of global hyporeactivity in the two patients. The first patient died from tumor recurrence 370 days after liver transplantation. The second patient is alive, 270 days after liver transplantation, but with a suspicion of tumor relapse as indicated by the reappearance of tumor marker in blood.

CONCLUSION

In the two cases, acceptance of HLA mismatched living-donor liver graft was obtained after non-myeloablative conditioning and donor stem cell infusion. Improving the rate of immune reconstitution appears as a priority to reduce the risk of tumor recurrence in such patients.

Functional assessment and specific depletion of alloreactive human T cells using flow cytometry

Human T-cell alloreactivity plays an important role in many disease processes, including the rejection of solid organ grafts and graft-versus-host disease (GVHD) following allogeneic stem cell transplantation. To develop a better understanding of the T cells involved in alloreactivity in humans, we developed a cytokine flow cytometry (CFC) assay that enabled us to characterize the phenotypic and functional characteristic of T cells responding to allogeneic stimuli. Using this approach, we determined that most T-cell alloreactivity resided within the CD4+ T-cell subset, as assessed by activation marker expression and the production of effector cytokines (eg, tumor necrosis factor α [TNF]α) implicated in human GVHD. Following prolonged stimulation in vitro using either allogeneic stimulator cells or viral antigens, we found that coexpression of activation markers within the CD4+ T-cell subset occurred exclusively within a subpopulation of T cells that significantly increased their surface expression of CD4. We then developed a simple sorting strategy that exploited these phenotypic characteristics to specifically deplete alloreactive T cells while retaining broad specificity for other stimuli, including viral antigens and third-party alloantigens. This approach also was applied to specifically enrich or deplete human virus-specific T cells.

Selective depletion of activated T cells: the CD40L-specific antibody experience

Blocking the signal that provides co-stimulation to T cells during their encounter with antigen is thought to make T cells anergic or tolerant. Recently, treatments using CD40L-specific antibody, a co-stimulation blocking reagent, in primate transplant models indicated that this elegant concept could finally be turning into reality. In this context, the finding that CD40L-specific antibody acts through depletion of activated T cells rather than through co-stimulation blockade might seem undesirable. However, the selective removal of cells that are key effectors of immunopathology could provide a powerful tool for containing unwanted immune responses such as those that mediate autoimmune diseases and transplant rejection.

IL-7 effect on immunological reconstitution after HSCT depends on MHC incompatibility

Considerable progress has been recently accomplished in the management of patients who have undergone haplo-incompatible haematopoietic stem cell transplantation (HSCT) in terms of intake and prevention of graft-versus-host disease. Nevertheless haplo-incompatible HSCT is a procedure limited to a small number of patients because of the long-lasting immunodeficiency that is responsible for more than 50% of deaths within the first 3 months. Interleukin (IL)-7, which plays a unique and key role in T-cell development both in the mouse and in the human, is particularly attractive for attempting to speed up T-cell reconstitution. However, controversial results have been obtained after bone marrow graft in murine and primate models. To elucidate the impact of IL-7 treatment, we have performed HSCT in irradiated murine recombination activating gene (RAG) immunodeficient recipients, using donors that exhibited increased major histocompatibilty complex (MHC) incompatibility. Although irradiation performed prior to HSCT lead to a profound defect in the thymic stromal cells responsible for IL-7 production, IL-7 treatment had no significant effect on immune reconstitution in the MHC compatible and partially compatible settings. Interestingly, in the MHC fully incompatible setting in which only one-third of the recipients demonstrated active thymopoiesis, probably because of the rejection of donor cells by host natural killer cells, IL-7 treatment had a beneficial effect on T-cell development.

Ex vivo depletion of alloreactive cells based on CFSE dye dilution, activation antigen selection, and dendritic cell stimulation

Eliminating alloreactive cells from T-cell populations would enable the transfer of immune function to patients who receive stem cell transplants. However, high-efficiency depletion has proved difficult to achieve. We sought to develop ex vivo approaches for the maximal depletion of alloreactive CD4+ T cells. Using a flow cytometric cell sorting approach after mixed lymphocyte reaction (MLR) culture, we have found that sorted CFSEbright (5-(and-6)-carboxyfluorescein diacetate succinmidyl ester) (nondivided) and activation antigen-negative cells are markedly depleted of alloreactivity. With HLA-mismatched peripheral blood mononuclear cell (PBMC) stimulators we have consistently attained (90%-95%) depletion of alloreactivity. Importantly, when purified matured monocyte-derived dendritic cells (DCs) are used as stimulators, a 100-fold (99%) reduction in alloreactivity was attained, resulting in abrogation of the secondary MLR. Significantly, the CFSEbright CD25- cells recovered from these cultures retained general immunoreactivity, including responses to Candida and cytomegalovirus (CMV) antigens. In addition, a CFSE-based approach was tested and found to be sufficient for graft-versus-host disease (GVHD) prevention in vivo, in a major histocompatibility complex (MHC) class II disparate murine model. This efficient approach to selectively deplete mature alloantigen-specific T cells may permit enhanced immune reconstitution without GVHD. (Blood. 2004;103:1158-1165)

Induction of oral tolerance in bone marrow transplantation recipients suppresses graft-versus-host disease in a semiallogeneic mouse model

Graft-versus-host disease (GVHD) is the major obstacle for successful allogeneic stem cell transplantation (SCT). Morbidity and mortality are high, and novel therapeutic strategies are required. Current therapy, which is based mainly on immunosuppression, is associated with a high degree of complications. Immune hyporesponsiveness induced by oral antigen administration has recently been shown to prevent the development of chronic GVHD (cGVHD) in a murine model. The aim of the present study was to evaluate whether it is possible to induce tolerance and to alleviate GVHD in a semiallogeneic transplantation model in mice. GVHD was generated by infusing 2 x 10(7) splenocytes from C57BL/6 donor mice into (C57BL/6 x Balb/c)F1 recipient mice, which received 7 Gy (60)Co total body irradiation (TBI) prior to transplantation. Oral tolerance was induced by feeding recipient F1 mice with five oral doses of proteins, 50 micro g/mouse, extracted from C57BL/6 splenocytes on alternate days following transplantation. In vitro mixed lymphocyte reaction (MLR) from tolerized and nontolerized mice was performed. Recipient mice were followed for chimerism, and for clinical and histological parameters of GVHD. Induction of tolerance was documented by a significant reduction in MLR response of tolerated vs nontolerated splenocytes. A significant alleviation of the clinical and pathological manifestation of GVHD was observed in the liver, small bowel, and skin. Tolerance induction did not jeopardize engraftment. These results may constitute a step towards reducing the frequency of GVHD via manipulation of the immune system.

New concepts about graft-versus-host and graft-versus-leukaemia-reactions. A summary of the 5th International Symposium held in Munich, 21 and 22 March 2002

The Fifth International Symposium on Graft-versus-Host and Graft-versus-Leukemia Reactions was held on 21 and 22 March 2002 in the University Hospital (Klinikum Grosshadern) of the University of Munich. As in previous years, it was dedicated to the encounter of scientists and clinicians involved in hematopoietic cell transplantation. This year's symposium focused on the characterization of stem cells potentially expanding the use of hematopoietic stem cells and on gene therapy. The immunology section dealt with mechanisms of tolerance, and the characterization of minor histocompatibility antigens presented by major histocompatibility molecules. Further important topics were cytokines and dendritic cells. In 1 and 1/2 days of intense work, the invited speakers, chairmen, authors and an active audience experienced an exciting exchange of ideas and collaboration. Again, new impulses were given for basic research and clinical transplantation. The authors would like to express their deep appreciation and thanks to all participants of this symposium.

Immune reconstitution without graft-versus-host disease after haemopoietic stem-cell transplantation: a phase 1/2 study

BACKGROUND

Allogeneic haemopoietic stem-cell transplantation (HSCT) is the treatment of choice for many haematological malignancies and inherited disorders. When stem cells for transplantation come from a human leucocyte antigen matched unrelated donor, or from a partly mismatched related donor, ex-vivo T-cell depletion of the graft can prevent development of graft-versus-host disease, but lead in turn to a delay in immune reconstitution and a concordant increase in incidence of opportunistic infections and leukaemic relapses. We aimed to infuse T cells selectively depleted in allogeneic T cells that cause graft-versus-host disease using an ex-vivo procedure designed to eliminate alloactivated donor T cells, with an immunotoxin that reacts with a cell surface activation antigen, CD25.

METHODS

We did a phase 1/2 study, in which 1-8 x 10(5) allodepleted T cells/kg were infused between days 15 and 47 into 15 paediatric patients who had acquired or congenital haemopoietic disorders and who received HSCT on day 0. Occurrence of graft-versus-host disease and time to immune reconstitution were assessed. No treatment for graft-versus-host disease was given.

FINDINGS

Less than 1% residual anti-host alloreactivity was recorded in 12 of 16 procedures. Other immune responses were preserved by the allodepletion procedure in 12 cases. No cases of severe (greater than grade II) graft-versus-host disease arose. Evidence for early T-cell expansion was shown in three patients with continuing viral infections. Specific antiviral responses, such as strong cytolytic activity, were noted.

INTERPRETATION

Our results show that ex-vivo selective depletion of T cells that cause graft-versus-host disease is efficient and feasible, even in haploidentical settings.