To serve and to protect: the role of decidual innate immune cells on human pregnancy

J Zhang, C Dunk, AB Croy, SJ Lye - Cell and tissue research, 2016 - Springer
J Zhang, C Dunk, AB Croy, SJ Lye
Cell and tissue research, 2016Springer
The maternal–fetal interface undergoes dynamic changes that promote successful
development of the embryo/fetal allograft during pregnancy. This immune privilege of the
conceptus is mediated through local and systemic cellular responses. In species in which
endometrial decidualization accompanies pregnancy, unique immune cell niches are found.
Many studies have addressed the enigmatic roles of uterine (u) NK cells as killers and
helpers because they are frequently found in the uterine lining and decidua of normal and …
Abstract
The maternal–fetal interface undergoes dynamic changes that promote successful development of the embryo/fetal allograft during pregnancy. This immune privilege of the conceptus is mediated through local and systemic cellular responses. In species in which endometrial decidualization accompanies pregnancy, unique immune cell niches are found. Many studies have addressed the enigmatic roles of uterine (u)NK cells as killers and helpers because they are frequently found in the uterine lining and decidua of normal and pathological pregnancies. Accumulating evidence indicates that uNK cells are induced and transformed by sensing signals within their microenvironment to both protect the mother from the fetal allograft and support the fetus during its development. Here, we review the mechanisms that modulate these functions of uNK cells during pregnancy. We suggest that uNK cells must be tightly regulated in order to serve these two roles and support a healthy pregnancy.
Springer