MATERNAL-FETAL INTERACTIONS AND THE Rh BLOOD GROUP
Victoire N. NdongBiology 327: Immunology
THE PLACENTA
HOW DOES THE FETUS STAY IMPLANTED IN THE UTERUS WITHOUT BEING REJECTED?
MEDAWAR’S THEORIES
The uterus is an “immunologically privileged site”
The fetus is antigenically immature and the placenta is a neutral barrier.
There is immunosuppression during pregnancy
There will be a transfer of paternal antigen tolerance.
ANTIGENICITY OF THE PLACENTAThe outer layer of the placenta in contact with
maternal blood never expresses MHC class IIThe cytotrophoblast and the syncytiotrophoblast
are MHC class I negative NK cells could attackThe extravillous trophoblast expresses HLA-C
which is a classical polymorphic MHC class I gene product
HLA-C is less polymorphic than HLA-A and BHLA-G is monomorphic and it’s expressed on the
syncytiotrophoblast, causes apoptosis of Tcells.
IMMUNOSUPPRESSIONIndoleamine 2,3-deoxygenase (IDO) prevents tryptophan
catabolism by T cell in placenta hence causing their inactivation and death.
Injection of IL-2 causes activation of CD8, CD4 and NK cells so to prevent this, the placenta secretes immunosuppressors like Th2 cytokines and the placenta recruits cells that secrete β2 transforming growth factor (TGF).
Increase in the number of rPg on T cells and NK cells after recognition of paternal antigens, and high progesterone level cause the secretion TJ6-RTF and PIBF which are potent immunosuppressors.
Fas interaction with Fas ligand on Tcell causes apoptosis
IMMUNOTROPHISMThe size of the placenta increases with the number of
pregnancies .The placenta promote more implantation sites Colony stimulating factors like IL-3 and GM-CSF
produced by the mother are growth factors for the placenta so the placenta pushes for allorecognition by T cells to use their growth factors for it self.
Allorecognition causes IgG2 cytotoxic antibodies production and complement activation.
Placenta sends complement regulatory proteins like DAF (decay accelarating factor )and MCF (membrane cofactor protein)
PREGNANCY A Th2 PHENOMENONDuring pregnancy there is a suppression of Th1 responses by an increase of Th2 cytokines like anti inflammatory IL-10
IRENE ATHANASSAKIS et al.
Recent researchRecent research have shown that MIC (MHC class
I chain) played a role in immune escape of tumorsMIC is a ligand for the activating site of the NK
cell activating receptor NKG2DSo MIC-NKG2D is good for immune surveillanceHowever, soluble forms of MIC are produced by
tumors maybe to act as a competitive inhibitors that block the recognition of the membrane bound MIC causing a downregulation of NKG2D
High levels of soluble MIC have been found in pregnancy serum
THE RHESUS BLOOD GROUP MODELDiscovered by LandsteinerMore complex than the ABO blood group
modelIt has 54 antigens but the most important is
the D antigenEither the person expresses it or he doesn’tInheritance happens in a dominant way DD
and Dd individuals are Rh+ and dd individuals are Rh-
Rh incompatibility can cause serious problems like Hemolytic disease of the newborn (HDN)
Hemolytic disease of the newbornHDN happens when an Rh- mother is
pregnant with an Rh positive babyFetal red blood cells enter maternal
circulation causing immunization of the mother and production of IgG antibodies
The IgGs will cross the placenta and attack the fetal red blood cells
Antibody titers increase with time and for that reason the first pregnancy is the least at risk
There are many ways of preventing HDN
HDN
PREVENTION OF HDN• Intrauterine transfusion of compatible blood
• Induction of labor right after pulmonary maturation
• Injection of Rh immune globulin (RhIg) at 28 weeks of pregnancy and 72 hours after delivery.
SOURCES Mincheva-Nilsson L, Nagaeva O, Chen T, Stendahl U, Antsiferoval,
Mogren I, Hernestal J, Baranov V. Placenta-derived soluble MHC class I chain-related molecules down-regulate NKG2D receptor on peripheral blood mononuclear cells during human pregnancy: a possible novel immune escape mechanism for fetal survival.
Irene Athanassakis, Vagia Farmakiotis, and Lina Papadimitriou, “Uterine Cytokine Production During the Menstrual Cycle and Preimplantation Stages in Mice,” Developmental Immunology, vol. 7, no. 1, pp. 33-42, 1999. doi:10.1155/1999/67137
Gérard Chaouat, INSERM, Clamart, France. Reproductive Immunology Standard Article
Gérard Chaouat, Hôpital A. Béclère, Clamart. Fetal–Maternal Immunological Relationships Standard Article