Caroline Lenaerts

CTLA-4 blockade in murine bone marrow chimeras induces a host-derived antileukemic effect without graft-versus-host disease

We studied the effect of CTLA-4 blockade on graft-versus-leukemia and graft-versus-host responses in a mouse model of minor histocompatibility-mismatched bone marrow transplantation. Early CTLA-4 blockade induced acute graft-versus-host disease. Delayed CTLA-4 blockade resulted in a lethal condition with lymphosplenomegaly, but with stable mixed T-cell chimerism, unchanged alloreactive T-cell frequencies and absent anti-host reactivity in vitro. In contrast, multiorgan lymphoproliferative disease with autoimmune hepatitis and circulating anti-DNA auto-antibodies were documented. Splenic lymphocytes exhibited ex vivo spontaneous proliferation and a marked proliferative response against host-type dendritic cells pulsed with syngeneic (host-type) tissue-peptides. Both phenomena were exclusively mediated by host and not donor T cells, supporting an autoimmune pathogenesis. Selectively host-derived T-cell immune reactivity was equally documented against leukemia-peptide-pulsed dendritic cells, and this was paralleled by a strong in vivo antileukemic effect in anti-CTLA-4-treated and subsequently leukemia-challenged chimeras. In conclusion, delayed CTLA-4 blockade induced a host-derived antileukemic effect, occurring in the context of an autoimmune syndrome and strictly separated from graft-versus-host disease. Both antileukemic and autoimmune responses depended on the allogeneic component, as neither effect was seen after syngeneic bone marrow transplantation. Our findings reveal the potential of using CTLA-4 blockade to establish antileukemic effects after allogeneic hematopoietic stem cell transplantation, provided autoimmunity can be controlled.

Subset characterization of myeloid-derived suppressor cells arising during induction of BM chimerism in mice

To date, myeloid-derived suppressor cells (MDSC) have been best studied in cancer, where they represent an escape mechanism for immune surveillance. MDSC are now also gaining interest in the context of transplantation. Suppressive CD11b+ myeloid progenitor cells have been reported to expand endogenously during BM chimerism induction in mice; in particular, in irradiated MHC-matched BM chimeras and in parent-in-F1 BM chimeras. Myeloid cell expansion coincided with a time frame where donor lymphocyte infusion (DLI) therapy-mediated GVL effects without GVHD. Hypothesizing that regulatory myeloid cells may have a role in regulating post-transplant T-cell alloreactivity, we performed a detailed phenotypic and functional characterization of these cells in the parent-in-F1 C57BL/6 → [C57BL/6xDBA2] model. We found that transiently expanding CD11b+ myeloid progenitor cells comprise the two phenotypically and functionally distinct mononuclear and polymorphonuclear MDSC subsets that were recently described in tumor-bearing mice. Both MDSC subsets suppressed in vitro and in vivo alloreactive T-cell proliferation. Also, both the subsets mediated enhanced in vitro suppression when harvested from chimeras, given a prior in vivo challenge with non-tolerant donor T cells, indicating that allo-activated T cells can activate MDSC in vivo. This study provides the basis to investigate the—potentially beneficial—role of expanding MDSC in influencing the risk of GVHD during chimerism induction.

Recipient lymphocyte infusion in MHC-matched bone marrow chimeras induces a limited lymphohematopoietic host-versus-graft reactivity but a significant antileukemic effect mediated by CD8+ T cells and natural killer cells

Background Challenge of MHC-mismatched murine bone marrow chimeras with recipient-type lymphocytes (recipient lymphocyte infusion) produces antileukemic responses in association with rejection of donor chimerism. In contrast, MHC-matched chimeras resist eradication of donor chimerism by recipient lymphocyte infusion. Here, we investigated lymphohematopoietic host-versus-graft reactivity and antileukemic responses in the MHC-matched setting, which is reminiscent of the majority of clinical transplants. Design and Methods We challenged C3H→AKR radiation chimeras with AKR-type splenocytes (i.e. recipient lymphocyte infusion) and BW5147.3 leukemia cells. We studied the kinetics of chimerism using flowcytometry and the mechanisms involved in antileukemic effects using in vivo antibody-mediated depletion of CD8+ T and NK cells, and intracellular cytokine staining. Results Whereas control chimeras showed progressive evolution towards high-level donor T-cell chimerism, recipient lymphocyte infusion chimeras showed a limited reduction of donor chimerism with delayed onset and long-term preservation of lower-level mixed chimerism. Recipient lymphocyte infusion chimeras nevertheless showed a significant survival benefit after leukemia challenge. In vivo antibody-mediated depletion experiments showed that both CD8+ T cells and NK cells contribute to the antileukemic effect. Consistent with a role for NK cells, the proportion of IFN-γ producing NK cells in recipient lymphocyte infusion chimeras was significantly higher than in control chimeras. Conclusions In the MHC-matched setting, recipient lymphocyte infusion elicits lymphohematopoietic host-versus-graft reactivity that is limited but sufficient to provide an antileukemic effect, and this is dependent on CD8+ T cells and NK cells. The data indicate that NK cells are activated as a bystander phenomenon during lymphohematopoietic T-cell alloreactivity and thus support a novel type of NK involvement in anti-tumor responses after post-transplant adoptive cell therapy.

IL-7 Is Required for the Development of the Intrinsic Function of Marginal Zone B Cells and the Marginal Zone Microenvironment

The characteristic microarchitecture of the marginal zone (MZ), formed by locally interacting MZ-specific B cells, macrophages, and endothelial cells, is critical for productive marginal zone B cell (MZB cell) Ab responses. Reportedly, IL-7–deficient mice, although severely lymphopenic, retain small numbers of CD21highCD23low B cells consistent with MZB cell phenotype, suggesting that IL-7 signaling is not exclusively required for MZB cell lymphopoiesis. In this study, we investigated the function of IL-7−/− MZB cells and the IL-7−/− microenvironment using a model of hamster heart xenograft rejection, which depends exclusively on MZB cell-mediated production of T cell-independent IgM xenoantibodies (IgMXAb). C57BL/6-IL-7−/− mice accepted xenografts indefinitely and failed to produce IgMXAb, even after transfer of additional IL-7−/− or wild-type C57BL/6 MZB cells. Transfer of wild-type but not IL-7−/− B cells enabled SCID mice to produce IgMXAb. When transferred to SCID mice, wild-type but not IL-7−/− B cells formed B cell follicles with clearly defined IgM+, MOMA-1+, and MAdCAM-1+ MZ structures. Conversely, adoptively transferred GFP+ C57BL/6 B cells homed to the MZ area in a SCID but not an IL-7−/− environment. Naive IL-7−/− mice showed absent or aberrant splenic B cell structures. We provide evidence that IL-7 is critical for the development of the intrinsic function of MZB cells in producing rapidly induced IgM against T cell-independent type II Ags, for their homing potential, and for the development of a functional MZ microanatomy capable of attracting and lodging MZB cells.

Allogeneic bone marrow transplantation and donor lymphocyte infusion in a mouse model of irradiation-induced myelodysplastic/myeloproliferation syndrome (MD/MPS): evidence for a graft-versus-MD/MPS effect

The role of graft-versus-malignancy reactivity in the effects of allogeneic hematopoietic stem cell transplantation and donor lymphocyte infusion (DLI) for myelodysplastic syndromes is as yet not well established. Clinical data are limited and animal models are scarce. Here, we report on the effects of allogeneic bone marrow transplantation (alloBMT) and DLI in a novel model of irradiation-induced murine myelodysplastic/myeloproliferation syndrome (MD/MPS). Total body irradiation with 8.5 Gy in SJL/J mice gave rise to a lethal wasting syndrome in 60% of mice, characterized by 1° normocellular bone marrow with dysplastic features in erythroid, myeloid and megakaryocytic cell lineages, 2° lymphosplenomegaly with spleens harboring a prominent extramedullary hematopoiesis with erythroid, myeloid and megakaryocytic lineages exhibiting dysplastic features, and foci of dysplastic hematomyelopoiesis in the liver, 3° peripheral thrombocytopenia and 4° evidence of disseminated infection or leukemic transformation in selected animals. This clinicopathological picture was consistent with a murine form of MD/MPS. Syngeneic or allogeneic (BALB/c) T cell-depleted BMT could not prevent the occurrence of lethal MD/MPS. In contrast, DLI at weeks 2–4 after BMT led to restoration of the dysbalanced hematomyelopoiesis. However, severe DLI-induced acute graft-versus-host disease occurred, precluding a survival advantage. We present evidence of the existence of a post-alloBMT DLI-induced graft-versus-MD/MPS effect in murine irradiation-induced MD/MPS.

Reduction of myeloid-derived suppressor cells reinforces the anti-solid tumor effect of recipient leukocyte infusion in murine neuroblastoma-bearing allogeneic bone marrow chimeras

Allogeneic hematopoietic stem cell transplantation is an emerging treatment option for solid tumors because of its capacity to elicit immune graft-versus-tumor effects. However, these are often limited and associated with GvHD. Adoptive recipient leukocyte infusion (RLI) was shown to enhance anti-tumor responses of allogeneic bone marrow transplantation in murine neuroblastoma (Neuro2A)-bearing chimeras. In contrast to the clinically used donor leukocyte infusion, the RLI anti-tumor effect—elicited by host-versus-graft lymphohematopoietic reactivity—does not cause GvHD; however, the tumor growth-inhibitory effect is incomplete, because overall survival is not prolonged. Here, we studied the anti-solid tumor mechanisms of RLI with the objective to improve its efficacy. Host-versus-graft reactivity following RLI was associated with a systemic cytokine storm, lymph node DC activation, and systemic expansion of host-derived IFN-γ-expressing CD4+ T cells and IFN-γ-and granzyme B-expressing CD8+ T cells, which acquired killing activity against Neuro2A and third-party tumor cells. The tumor showed up-regulation of MHC class I and a transient accumulation of IFN-γ-and granzyme B-expressing CD8+ T cells: the intra-tumor decline in cytotoxic CD8+ T cells coincided with a systemic—and to a lesser extent intra-tumoral—expansion of MDSC. In vivo MDSC depletion with 5-FU significantly improved the local tumor growth-inhibitory effect of RLI as well as overall survival. In conclusion, the RLI-induced alloreactivity gives rise to a host-derived cytotoxic T-cell anti-neuroblastoma response, but also drives an expansion of host-type MDSC that counteracts the anti-tumor effect. This finding identifies MDSC as a novel target to increase the effectiveness of RLI, and possibly other cancer immunotherapies.