Allogeneic stimulation of naturally occurring CD4+CD25+ T cells induces strong regulatory capacity with increased donor-reactivity.

Current therapies in transplantation require continuous immunosuppression and do not result in transplantation tolerance. It is increasingly appreciated that CD4(+)CD25(+) regulatory T-cell (T(REG)) activation is pivotal for the induction and maintenance of peripheral tolerance. To optimally exploit T(REG) in allograft tolerance, we investigated how to further harness their function. In vitro, CD4(+)CD25(+)T cells were expanded by allogeneic bone-marrow derived DC or polyclonal stimulation and were compared in suppressive capacity and phenotype. In vivo, naive allogeneic CD4(+)CD25(+)T cells were analyzed in wild type hosts for proliferative capacity and suppressive capacity upon priming by alloantigen. DC of donor origin were found to potently stimulate alloreactive T(REG)in vitro. This was accompanied by a substantial enhancement of the suppressive capacity of the T(REG) population as a whole, likely due to a proportional rise of alloreactive T(REG) as indicated by CFSE analysis. In vivo analysis of infused naturally occurring allogeneic T(REG) revealed a robust proliferative capacity for T(REG) upon stimulation. Moreover, allogeneic skin transplantation resulted in enhanced capacity of the T(REG) population to suppress the response towards donor antigens. Combining, activation of alloreactive T(REG) is an intrinsic part of the regular alloimmune response and this feature can be exploited for therapeutic purposes. We propose that selectively favoring the effects of alloreactive T(REG) is a pivotal element in inducing graft acceptance.

Dendritic cells activated by lipopolysaccharide after dexamethasone treatment induce donor-specific allograft hyporesponsiveness.

BACKGROUND: Immature dendritic cells (imDC) can prolong allograft survival in murine transplantation models. Recent data indicate that semi-mature or alternatively activated DC (aaDC) may be even more tolerogenic. METHODS: We compared the phenotype and regulatory capacity of: a) imDC, cultured in the presence of dexamethasone (DEX), b) mature DC (matDC), activated with LPS, and c) aaDC, activated with LPS after pretreatment with DEX. RESULTS: As compared to imDC, aaDCs displayed a slight upregulation of CD40 while expression levels of MHC-II and CD86 remained low. The production of proinflammatory cytokines, in particular IL-12, by aaDC was much lower than by matDC while both produced similar amounts of the regulatory cytokine IL-10 leading to an increased IL-10/IL-12 ratio for aaDC. After infusion of donor type aaDCs, responder cells isolated from the recipient mice showed donor-specific hyporesponsiveness to restimulation by matDC. Infusion of matDC was immunogenic, while imDC induced partial hyporesponsiveness. Importantly, pretreatment with donor type aaDC (but not imDC) resulted in prolonged survival of a completely MHC-mismatched heart allograft. CONCLUSIONS: Alternatively activated DC are more efficacious than the classical imDC in the regulation of the alloimmune response, which may be related to a distinct cytokine profile characterized by an increased IL-10/IL12 ratio.

Shift in expression of HLA-G mRNA spliceforms in pregnancies complicated by preeclampsia.

OBJECTIVE: Despite emerging data on the in vitro modulatory effects of trophoblast-associated human leukocyte antigen G (HLA-G), its in vivo function needs to be determined. Immunohistochemical studies show a decrease in protein expression of trophoblast HLA-G in preeclampsia. Such a decrease in protein might be the consequence of a shift in HLA-G mRNA spliceform patterns. In an exploratory pilot study we determined trophoblast HLA-G mRNA spliceform distribution in preeclampsia. METHODS: Placental samples were collected immediately after cesarean delivery from pregnancies complicated by preeclampsia or the syndrome hemolysis, elevated liver enzymes, and low platelet count (HELLP) and uncomplicated normotensive pregnancies as controls. HLA-G mRNA spliceform distribution was analyzed using a semiquantitative reverse transcriptase polymerase chain reaction procedure. RESULTS: Analysis of HLA-G spliceform distribution showed a significant increase in frequency of the G5 form encoding for a soluble HLA-G molecule in preeclampsia. This increase in G5 form was not found in pregnancies complicated by HELLP. CONCLUSION: The increased frequency in the expression of the HLA-G G5 spliceform may play a role in the pathophysiology of preeclampsia, in particular through a recently suggested effect of this soluble HLA-G molecule on remodeling of the spiral arteries.

Altered phenotype of HLA-G expressing trophoblast and decidual natural killer cells in pathological pregnancies.

BACKGROUND: The interaction between decidual natural killer (NK) cells and alloantigens expressed on fetal trophoblast cells are thought to be essential for successful implantation and placentation. Consequently, a disturbed interaction during the first trimester of pregnancy might well lead to a subsequent pregnancy failure. METHODS: We investigated the expression of HLA-G and NK cell markers in tissue sections from recurrent miscarriage (n = 9) and ectopic tubal pregnancies (n = 5), and two hysterectomy specimens of healthy pregnancy as well as decidual biopsies (n = 9) were used as controls. RESULTS: We show in normal pregnancy not only a decrease, but also a morphological change in CD56+ NK cells upon interaction with HLA-G-expressing trophoblasts. The cells appear to be transitioning from a blast-like (activation) state into a state of apoptosis. The number of CD16+ NK cells was low. In contrast, in recurrent miscarriage tissue a sustained NK cell marker expression of both CD56 and CD16 was paralleled by a decreased expression of HLA-G. No morphological changes from the blast-like stage were apparent. Finally, in ectopic pregnancies HLA-G expression in the absence of decidual NK cells was associated with a disturbed trophoblast differentiation. CONCLUSIONS: In pathological pregnancies we show an in-situ altered phenotype of trophoblast and NK cells.

Amniotic fluid soluble human leukocyte antigen G is markedly decreased in offspring with neural tube defects.

Pregnancies affected by a neural tube defect show changes in thymus morphology, neonatal and maternal T-cell repertoire. Amniotic fluid levels of soluble human leukocyte antigen G (HLA-G) (an immuno-modulatory protein) were found to be significantly lower as compared to controls. This may reflect a diminished cell-mediated immunity in neural tube defects.