Antigen-specific decidual CD8+ T cells include distinct effector memory and tissue-resident memory cells.

Maternal decidual CD8+ T cells must integrate the antithetical demands of providing immunity to infection while maintaining immune tolerance for fetal and placental antigens. Human decidual CD8+ T cells were shown to be highly differentiated memory T cells with mixed signatures of dysfunction, activation, and effector function. However, no information is present on how specificity for microbial or fetal antigens relates to their function or dysfunction. In addition, a key question, whether decidual CD8+ T cells include unique tissue-resident memory T cells (Trm) or also effector memory T cell (Tem) types shared with peripheral blood populations, is unknown. Here, high-dimensional flow cytometry of decidual and blood CD8+ T cells identified 2 Tem populations shared in blood and decidua and 9 functionally distinct Trm clusters uniquely found in decidua. Interestingly, fetus- and virus-specific decidual CD8+ Trm cells had similar features of inhibition and cytotoxicity, with no significant differences in their expression of activation, inhibitory, and cytotoxic molecules, suggesting that not all fetus-specific CD8+ T cell responses are suppressed at the maternal-fetal interface. Understanding how decidual CD8+ T cell specificity relates to their function and tissue residency is crucial in advancing understanding of their contribution to placental inflammation and control of congenital infections.

Purification of Primary Decidual Natural Killer Cells for Functional Analysis.

Decidual NK cells (dNK) are a unique type of NK cells found at the maternal-fetal interface during pregnancy. dNK play a key role in placental development, trophoblast invasion, and immunity to viral and bacterial infection of the placenta. dNK are the predominant leukocyte population in first trimester placental tissues and comprise around 70% of the total CD45+ leukocytes. dNK remain present throughout pregnancy but their proportion decreases to 20-40% of term placenta decidual tissue leukocytes. Investigation of dNK function throughout pregnancy is of high clinical relevance for understanding the development of placental inflammatory disorders as well as maternal-to-fetal transmission of pathogens. In this chapter, we describe in detail the methods we developed to purify dNK from first trimester and term pregnancy placental tissues. These methods are suitable to assess their protein and gene expression profiles as well as their function.