Because Treg cells exhibit constitutive expression of cell surface proteins such as CTLA-4, CD45RO, Neuropilin-1, LAG-3, CD62L, and CD103 as a specific feature of Treg cell phenotype,21,39,40 we decided to investigate whether the CD4+ CD25+ Foxp3+ cells from paired decidual and peripheral blood samples expressed these antigens. CD4+ CD25+ Foxp3+ Treg cells were spotted on slides and double stained for Foxp3 and the above-mentioned Treg cell markers, respectively. Five experiments with consistent results were performed, showing
that the decidual and peripheral blood CD4+ CD25+ Foxp3+ cells expressed CD45RO, CTLA4, Neuropilin-1, LAG3, CD62L, and CD103 as illustrated by a representative experiment of decidual Treg cells presented in Fig. 5. As a next step, the cytokine mRNA profile of separated decidual and peripheral blood CD4+ CD25+ Treg cells was assessed by https://www.selleckchem.com/products/ABT-737.html real-time quantitative RT-PCR analysis in a similar way as for the CD4+ CD25− cells to Talazoparib solubility dmso discriminate between Th1, Th2, Th17, and the regulatory Th3 and Tr1 cytokine profiles. The mRNA cytokine profile of
CD4+ CD25+ cells separated from paired DMC and PBMC from 10 pregnant and PBMC from 10 non-pregnant controls was compared. Our data presented in Table II demonstrated that, while all cytokines were revealed in the positive control, only mRNA for TGFβ1 was detected in the CD4+ CD25+ cells, a finding consistent with Th3 cytokine profile. In our hands, the levels of the relative expressions of mRNA for TGFβ1 between paired samples of decidual and peripheral blood Treg cells from pregnant SPTLC1 women were comparable between each other and also similar to those expressed by peripheral blood Treg cells from non-pregnant women (not shown). The present work establishes the phenotype and frequency of decidual and peripheral blood Treg cells during early human pregnancy using Foxp3 as their lineage-specific marker. We have assessed the Treg cells in paired decidual and peripheral blood samples and compared them to each other and to peripheral blood Treg cells from healthy non-pregnant women. Furthermore,
we demonstrate here, for the first time, immunohistochemical double staining of the Foxp3-expressing Treg cells in decidua visualizing their in situ distribution. Our results can be summarized in four main conclusions: (i) Using flow cytometry, three decidual- and peripheral blood Foxp3-expressing CD4+ Treg cell populations, CD4+ CD25++ Foxp3+, CD4+ CD25+ Foxp3+, and CD4+ CD25− Foxp3+, were identified in early normal pregnancy. All these Foxp3-positive populations were significantly enriched in the decidua compared with the peripheral blood of pregnant women as assessed in paired decidual and peripheral blood samples. (ii) Most interesting, the decidual CD4+ CD25− T cells expressing Foxp3 were 10 times higher in numbers compared to this cell population in the blood.