Origin of Foxp3(+) cells during pregnancy.

Pregnancy establishment and maintenance represents a challenge for the maternal immune system because it has to be alert against pathogens while tolerating paternal alloantigens expressed in fetal structures. Regulatory T cells (Tregs) are important for successful implantation and involved in allotolerance towards paternal antigens. The origin and mechanisms leading to Treg generation during pregnancy at different stages remain under discussion.

Control of uterine microenvironment by foxp3(+) cells facilitates embryo implantation.

Implantation of the fertilized egg into the maternal uterus depends on the fine balance between inflammatory and anti-inflammatory processes. Whilst regulatory T cells (Tregs) are reportedly involved in protection of allogeneic fetuses against rejection by the maternal immune system, their role for pregnancy to establish, e.g.

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.

Kinetics of regulatory T cells during murine pregnancy.

Problem: The semi-allogeneic fetus is usually tolerated by the maternal immune system. This was proposed to be modulated by CD4+CD25+foxp3+ regulatory T cells (Treg). We aimed to determine the kinetics of Treg during murine gestation and investigate whether changes in Treg levels respond to hormonal variations during pregnancy or generated changes in the local indolamine dioxygenase (IDO) expression.

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.