Barbara J. van der Mast

Evidence for a Selective Migration of Fetus-Specific CD4+CD25bright Regulatory T Cells from the Peripheral Blood to the Decidua in Human Pregnancy

During pregnancy, the maternal immune system has to tolerate the persistence of fetal alloantigens. Many mechanisms contribute to the prevention of a destructive immune response mediated by maternal alloreactive lymphocytes directed against the allogeneic fetus. Murine studies suggest that CD4+CD25+ T cells provide mechanisms of specific immune tolerance to fetal alloantigens during pregnancy. Previous studies by our group demonstrate that a significantly higher percentage of activated T cells and CD4+CD25bright T cells are present in decidual tissue in comparison with maternal peripheral blood in human pregnancy. In this study, we examined the phenotypic and functional properties of CD4+CD25bright T cells derived from maternal peripheral blood and decidual tissue. Depletion of CD4+CD25bright T cells from maternal peripheral blood demonstrates regulation to third party umbilical cord blood cells comparable to nonpregnant controls, whereas the suppressive capacity to umbilical cord blood cells of her own child is absent. Furthermore, maternal peripheral blood shows a reduced percentage of CD4+CD25brightFOXP3+ and CD4+CD25brightHLA-DR+ cells compared with peripheral blood of nonpregnant controls. In contrast, decidual lymphocyte isolates contain high percentages of CD4+CD25bright T cells with a regulatory phenotype that is able to down-regulate fetus-specific and fetus-nonspecific immune responses. These data suggest a preferential recruitment of fetus-specific regulatory T cells from maternal peripheral blood to the fetal-maternal interface, where they may contribute to the local regulation of fetus-specific responses.

Differential effect of calcineurin inhibitors, anti-CD25 antibodies and rapamycin on the induction of FOXP3 in human T cells.

Background. The transcription factor FOXP3 has been identified as the molecule associated with the regulatory function of CD25+ T cells. Methods. To understand the biology of FOXP3+ T cells in allogeneic reactions, we measured FOXP3 mRNA expression levels in allostimulated CD25 bright+ cells and CD25 intermediate( int)/- cells and in peripheral blood mononuclear cells (PBMC). The effect of immunosuppressive drugs on FOXP3 expression was studied in mixed lymphocyte reactions (MLR) in the presence and absence of calcineurin inhibitors (CNI), &agr;CD25 mAb, and Rapamycin (Rapa), and analyzed in biopsies from cardiac allograft recipients during acute rejection by quantitative (Q)-PCR. Results. FOXP3 mRNA expression was restricted to the CD25 bright+ population that inhibited the proliferation of allostimulated CD25 int/- cells. In the MLR FOXP3 was readily induced after allostimulation. Kinetic examination of the MLR showed a 10–20-fold higher FOXP3 mRNA expression level after 5 days of culture. The CNI Cyclosporin and Tacrolimus, and &agr;CD25 mAb inhibited in vitro induced FOXP3 gene transcription (range 70%–90%), whereas Rapa did not inhibit the induction. After clinical heart transplantation the highest FOXP3 mRNA expression levels were measured in biopsies during acute rejection (P=0.03). Conclusions. The high FOXP3 mRNA levels during allogeneic responses in vivo and in vitro suggests that regulatory activities of CD25 bright+ T cells or the generation of these cells is an intrinsic part of activation. CNI and &agr;CD25 mAb in contrast to Rapa, did interfere with this immunosuppressive counter-mechanism and as a result might have an inhibitory effect to tolerance induction after transplantation.

Fetal–maternal HLA-C mismatch is associated with decidual T cell activation and induction of functional T regulatory cells

Human leukocyte antigen-C (HLA-C) is the only polymorphic classical histocompatibility antigen expressed by fetal trophoblasts at the fetal-maternal interface. Interactions between HLA-C and decidual natural killer (NK) cells may facilitate trophoblast invasion into maternal tissue. Thus far no evidence has been provided that decidual T cells specifically recognize and respond to fetal alloantigens at the fetal-maternal interface. In this study, we show that pregnancies containing a HLA-C mismatched child induce an increased percentage of CD4(+)CD25(dim) activated T cells in decidual tissue. In addition, HLA-C mismatched pregnancies exhibit a decidual lymphocyte response to fetal cells and contain functional CD4(+)CD25(bright) regulatory T cells in decidual tissue, whereas HLA-C matched pregnancies do not. This suggests that decidual T cells specifically recognize fetal HLA-C at the fetal-maternal interface but are prevented from inducing a destructive immune response in uncomplicated pregnancies.

Human Decidual Tissue Contains Differentiated CD8+ Effector-Memory T Cells with Unique Properties

During pregnancy, maternal lymphocytes at the fetal–maternal interface play a key role in the immune acceptance of the allogeneic fetus. Recently, CD4+CD25bright regulatory T cells have been shown to be concentrated in decidual tissue, where they are able to suppress fetus-specific and nonspecific immune responses. Decidual CD8+ T cells are the main candidates to recognize and respond to fetal HLA-C at the fetal–maternal interface, but data on the characteristics of these cells are limited. In this study we examined the decidual and peripheral CD8+ T cell pool for CD45RA, CCR7, CD28, and CD27 expression, using nine-color flow cytometry. Our data demonstrate that decidual CD8+ T cells mainly consist of differentiated CD45RA−CCR7− effector-memory (EM) cells, whereas unprimed CD45RA+CCR7+ naive cells are almost absent. Compared with peripheral blood EM CD8+ T cells, the decidual EM CD8+ T cells display a significantly reduced expression of perforin and granzyme B, which was confirmed by immunohistochemistry of decidual tissue sections. Interestingly, quantitative PCR analysis demonstrates an increased perforin and granzyme B mRNA content in decidual EM CD8+ T cells in comparison with peripheral blood EM CD8+ T cells. The presence of high levels of perforin and granzyme B mRNA in decidual EM T cells suggests that decidual CD8+ T cells pursue alternative means of EM cell differentiation that may include a blockade of perforin and granzyme B mRNA translation into functional perforin and granzyme B proteins. Regulation of decidual CD8+ T cell differentiation may play a crucial role in maternal immune tolerance to the allogeneic fetus.

Differential immunomodulatory effects of fetal versus maternal multipotent stromal cells.

Protective mechanisms are likely to be present at the fetomaternal interface because fetus-specific alloreactive T cells present in the decidua do not harm the fetus. We tested the immunosuppressive capacity of maternal and fetal multipotent stromal cells (MSC). Single cell suspensions were made from second-trimester amnion, amniotic fluid, and decidua. Culture-expanded cells were identified as MSC based on phenotype and multilineage potential. Coculture of MSC in a primary mixed lymphocyte culture of unrelated responder-stimulator combinations resulted in a dose-dependent inhibition of proliferation. Fetal MSC demonstrated a significantly higher inhibition compared with maternal MSC. This stronger inhibition by fetal MSC was even more prominent in a secondary mixed lymphocyte reaction (MLR) with primed alloreactive T cells. Analysis of cytokine production revealed that fetal MSC produced significantly more interleukin (IL)-10 and vascular endothelial growth factor than maternal MSC. Cell-cell contact is needed for part of the inhibitory effects of MSC. In addition, soluble factors play a role because blocking experiments with anti-IL-10 revealed that the inhibition of the MLR response by fetal MSC is mainly mediated by IL-10. For maternal MSC, other soluble factors seem to be involved. Fetal MSC derived from the fetomaternal interface have a stronger inhibitory effect on naive and antigen-experienced T cells compared with maternal MSC, which is probably related to their higher IL-10 production.

Expression of NK cell receptors on decidual T cells in human pregnancy

Specific receptors enable NK cells to discriminate between cells with normal expression of MHC class I and cells that have low or absent expression of MHC class I molecules. In addition to NK cells, these receptors can be expressed on T cell subsets, mainly on CD8+ T cells but also on gammadeltaTCR+ T cells and CD4+ T cells. Although the function of NK cell receptor expression on T cells is not completely understood, various studies have shown that they are involved in down regulation of T cell receptor (TCR)-mediated activation and influence effector functions, like cytotoxicity and cytokine production. The aim of this study was to analyze expression of NK cell receptors on peripheral blood and decidual T cells during human pregnancy using flow cytometry. We demonstrate that a proportion of decidual T cells express HLA-C specific killer immunoglobulin-like receptors (KIRs). Furthermore, a small proportion of decidual T cells express the HLA-E specific CD94-NKG2A inhibitory and CD94-NKG2C activating receptors. Decidual KIR+ and CD94-NKG2+ T cells mainly display a CD3+CD4-CD8- phenotype. However, decidual tissue also contains higher percentages of KIR and CD94-NKG2 expressing CD4+ and CD8+ T cells compared to peripheral blood. So far, the functional capacities of decidual T cells expressing the NK cell receptors are unknown but NK cell receptor expression on decidual T cells may provide an alternative means by which decidual T cells distinguish self (maternal) cells from allogeneic fetal cells, and act to modulate the decidual immune response.

Effect of HLA-DR-shared blood transfusion on the clinical outcome of heart transplantation

Pretransplant blood transfusion can have a favorable effect on renal and cardiac graft survival. In a previous study, we found that HLA-DR-shared blood transfusions led to better graft survival after kidney transplantation. In the present study, we tried to confirm and extend these findings by analyzing the effects of blood transfusion on the clinical course following heart transplantation. According to a predefined protocol, cardiac allograft recipients received random blood transfusion before surgery. A beneficial effect of HLA-DR-shared blood transfusion could be observed on survival and on the number of rejection episodes. Patients who had received an HLA-mismatched transfusion had significantly more infections, and in this group, more patients died due to malignancies. To study a possible role of immunomodulating T cells, patients who had or had not received prophylactic anti-T cell therapy were analyzed separately. In both groups, a beneficial effect of HLA-DR-shared blood transfusion could be demonstrated. These results indicate that the administration of HLA-DR-matched blood transfusion before transplantation is beneficial in cardiac allograft recipients, and that regulatory T cells are either not directly involved or (partly) resistant to modulation by anti-T cell antibody therapy.

Calcineurin Inhibitor Withdrawal in Stable Kidney Transplant Patients Decreases the Donor-specific Cytotoxic T Lymphocyte Precursor Frequency

Background. In a prospective study, calcineurin inhibitors (CNI) were withdrawn in patients two years after kidney transplantation. We questioned whether stopping CNI had an effect on the donor-specific reactivity, as CNI might hinder immune responses leading to graft acceptance. Methods. We measured the donor-specific cytotoxic T lymphocyte (CTL) precursor frequency (CTLpf) in 54 patients before and after withdrawal of CNI. In addition, the T-cell reactivity of PBMC to donor and third-party antigens was tested in MLR, and in IFNγ-Elispot. Reactivity to tetanus toxoid (TET) was studied as well. Results. Donor-specific CTLpf significantly decreased after CNI withdrawal (P=0.0001). In contrast, no difference was observed in third-party reactive CTLpf, donor and third-party reactive MLR and IFNγ-Elispot. Proliferative responses and the number of IFNγ-producing cells to TET also decreased after CNI withdrawal. The decrease in CTLpf correlated with the time between the two blood samples (before and after stopping CNI, P=0.05). This decrease was caused by stopping CNI, because there was no correlation between CTLpf and the duration of the CNI treatment after transplantation. Moreover, the percentage of regulatory T cells in the peripheral blood increased after CNI withdrawal. Conclusions. We report here that after withdrawal of CNI the donor-specific CTLpf decreases. We hypothesize that CNI suppress regulatory mechanisms that have the potential to down-regulate donor-specific CTL responses and reactivity to TET.

Changes in cytokine production and composition of peripheral blood leukocytes during pregnancy are not associated with a difference in the proliferative immune response to the fetus

We analyzed peripheral blood from women at term pregnancy for leukocyte composition, in vitro proliferative responses and cytokine production after nonspecific and fetus-specific stimulation. Maternal peripheral blood mononuclear cells (PBMCs) were collected and stimulated with umbilical cord blood (UCB) of the mothers own child, third-party UCB, nonspecific stimulus phytohemagglutinin, and anti-CD3 antibody, with PBMCs of nonpregnant women (cPBMC) as controls. Nine combinations of patient, child, third party child, and controls were selected on basis of sharing one human leukocyte antigen (HLA)-DR antigen. The response of mPBMC upon specific stimulation with fetal antigens was similar to that of cPBMC. No differences were found when comparing the mothers response upon stimulation to her own child with stimulation to that with a control child. Nonspecific stimulation with phytohemagglutinin and anti-CD3 antibody did not reveal a difference in proliferation rate between mPBMC and cPBMC. However, mPBMC contained a higher percentage of CD14(+) cells (p = 0.001) and activated T cells (CD25(dim), p < 0.0001), but a lower percentage CD16(-)CD56(bright) natural killer (NK) cells (p = 0.001) and CD16(+)CD56(+) NK cells (p = 0.003). mPBMC produced more interleukin (IL)-6, IL-10, and IL-17 compared with cPBMC (p < 0.05). We found differences in lymphocyte composition and cytokine production between mPBMC and cPBMC. These differences did not result in quantitative changes in proliferative responses during pregnancy compared with responses in nonpregnant controls.

Formation of donor-specific human leukocyte antigen antibodies after kidney transplantation: Correlation with acute rejection and tapering of immunosuppression

Background. Before kidney transplantation, a serological crossmatch is routinely performed between donor and recipient to prevent hyperacute rejection by donor-specific anti-human leukocyte antigen (HLA) antibodies. After transplantation, the presence of these antibodies is not routinely monitored. We wanted to know whether donor-specific anti-HLA antibodies are detectable during acute rejection (AR), before or after reduction of immunosuppression in kidney transplant recipients who were converted from cyclosporine A (CsA) to the less nephrotoxic azathioprine (AZA) or mycophenolate mofetil (MMF) at 1 year after transplantation. Methods. Plasma samples were collected before transplantation, at several time points after transplantation, and during AR. Antibodies were measured in 29 patients: 5 patients with AR during the first year after transplantation (before conversion), 14 patients with AR after conversion or dose-reduction of AZA or MMF, and a control group of 10 patients without AR during a follow-up of 2 years (1 year before and 1 year after conversion of immunosuppression). Antibodies were measured by complement-dependent cytotoxicity assay, enzyme-linked immunosorbent assay (ELISA), and flow-cytometry in a crossmatch with donor spleen cells. Results. Donor-specific antibodies were not detectable after transplantation in the control group without AR, nor in patients with AR shortly after transplantation during CsA therapy. After conversion from CsA to AZA or MMF, antibodies appeared only in one patient after graft failure followed by transplantectomy and in patients during AR on AZA but not on MMF therapy. Conclusion. In this patient group, we could not detect donor-specific antibodies during CsA treatment, not even at the time of AR using three different techniques. Donor-specific antibodies were primarily present during AR in patients converted from CsA to AZA and were not found in the sera from patients converted to MMF.