The persistence of paternal antigens in the maternal body is involved in regulatory T-cell expansion and fetal-maternal tolerance in murine pregnancy.

PROBLEM: Mammalian pregnancy is a state of immunological tolerance and CD4(+) CD25(+) regulatory T cells (Treg) contribute to its maintenance. Knowing that Treg act in an antigen-specific way during pregnancy, we hypothesized that they are generated after maternal immune cells encounter paternal antigens. METHOD OF STUDY: We mated wild type females with transgenic green fluorescent protein (GFP) males in an allogenic setting and killed them on different days of pregnancy. RESULTS: Presence of paternal and maternal MHC class II(+) cells in vaginal lavage on day 0.5 of pregnancy was confirmed. Thus, antigen presentation may take place early during pregnancy in the periphery either by the direct or indirect pathways. Foxp3(+) cells known to have regulatory activity could be detected on day 2 of pregnancy in lymph nodes and shortly after implantation at the fetal-maternal interface. CONCLUSION: Our data suggest that paternal antigens are processed early during pregnancy, which leads to the generation of Treg. The continuous release of placental antigens into the maternal circulation allows the maintenance of a Treg population which is specific for paternal antigens and mediates tolerance toward the semi-allogeneic fetus until the time point of birth.

Supporting the hypothesis of pregnancy as a tumor: survivin is upregulated in normal pregnant mice and participates in human trophoblast proliferation.

PROBLEM: Survivin, a tumor-promoting antiapoptotic molecule, is expressed in the human placenta. Here, we analyzed its expression during normal and pathological murine pregnancy and investigated its participation in human first trimester trophoblast cell survival and proliferation. METHOD OF STUDY: We first analyzed the expression of survivin on the mRNA and protein level at the fetal-maternal interface of normal pregnant (CBA/J x BALB/c) and abortion-prone (CBA/J x DBA/2J) mice at different pregnancy stages by RT-PCR and immunohistochemistry. We also evaluated apoptosis in murine trophoblasts in both mating combinations by TUNEL technique. Functional studies were carried out by knockdown survivin by means of siRNA methodology in two human first trimester trophoblast cell lines [Swan.71 (Sw.71) and HTR8 (H8)]. RESULTS: We observed a peak in mRNA levels on day 5 and a peak of protein levels on day 8 of pregnancy in both combinations. The level of survivin in animals from the abortion-prone group was decreased compared with normal pregnant mice on day 8, which was accompanied by elevated apoptosis rates. In later pregnancy stages (days 10 and 14), survivin levels decreased to levels comparable to those observed right after fecundation in both groups. Transfection of human first trimester cell lines (H8 and Sw.71) with siRNA targeting the survivin gene led to a 76-82% reduction of its expression leading to reduced trophoblast cell viability and proliferation. CONCLUSION: Our findings suggest an important role of survivin to promote trophoblast cell survival and proliferation during placentation, thus maintaining pregnancy. The pregnancy-associated expression of a cancer molecule such as survivin supports the 'pseudo-malignancy' hypothesis of pregnancy. Our data may contribute to the better understanding of trophoblast cell development during implantation and placentation.

Mechanisms of action of regulatory T cells specific for paternal antigens during pregnancy.

OBJECTIVE: To investigate whether pregnancy-induced regulatory T cells are generated specifically for paternal antigens or expanded by hormonal changes and to study regulatory T cell-related mechanisms during pregnancy. METHODS: We used murine models of normal, abortion-prone, and pseudopregnancy to characterize regulatory T cells and hormones by methods such as flow cytometry, molecular biology techniques, and chemiluminescence. Antigen specificity was studied in experiments in which animals were vaccinated with paternal antigens or adoptively transferred with regulatory T cells. To analyze regulatory T cell-mediated mechanisms, we used neutralizing antibodies against IL-10 or TGF-beta. RESULTS: Regulatory T cells are activated by male antigens, and minor antigens are protected by linked immunosuppression. Our data exclude the possibility that regulatory T cell expansion during pregnancy is exclusively driven by hormonal changes. An increase in systemic regulatory T cell levels in pseudopregnant females after mating with vasectomized males but not after pseudopregnancy induced mechanically confirms generation of regulatory T cells specific for paternal antigens. As for the mechanisms, neutralizing IL-10 abrogates the protective effect of regulatory T cells, whereas blockage of TGF-beta does not provide the same effect. CONCLUSION: Our data confirm that regulatory T cells act in an antigen-specific manner during pregnancy and strongly suggest that IL-10 is involved in regulatory T cell-mediated protection of the fetus. These data contribute to the knowledge of the basic mechanisms regulating immune tolerance during pregnancy, a major biologic question with important medical implications. LEVEL OF EVIDENCE: II.

Development of a chitinase and v-cathepsin negative bacmid for improved integrity of secreted recombinant proteins.

The application of the baculovirus-insect cell expression system for the production of integral membrane and secreted proteins is often more troublesome than for cytoplasmic proteins. One protein expressed at low levels in insect cells is the Theileria parva sporozoite surface protein p67. Theileria parva is a protozoan parasite, which causes the tick-transmitted disease East Coast fever in cattle. Baculovirus vectors were engineered to produce a secreted form of p67 by replacing the signal peptide of p67 with the honeybee mellitin signal sequence and deleting a putative membrane anchor from the C-terminus. Furthermore, the chitinase and v-cathepsin genes were deleted from the baculovirus expression vector in a bacmid setup, allowing broad scale application of this novel vector. Deletion of the chitinase and v-cathepsin gene had a positive effect on the integrity of both the intracellular and secreted recombinant protein.