While pregnancy-related proteins (PRP) are known to contribute to immunotolerance during pregnancy, their significance to development of invasive placenta is unclear. We compared PRP expression in humans and the common marmoset (Callithrix jacchus), a new-world monkey. Invasive placenta was observed at the maternal-foetal interface of marmoset placenta from green fluorescent protein (GFP)-expressing foetus and wild type mother. The pregnancy zone protein (PZP) and alpha-2 macroglobulin-like 1 (A2ML1) proteins exhibited the most prominent increase in expression during the second trimester in humans and marmoset, respectively. In humans, PZP accumulated at the maternalfoetal interface and A2ML1 accumulated in the amnion. Similarly, A2ML1 mRNA was detected in marmoset placenta. These proteins belong to the A2M family of protease inhibitors, and both PZP and A2ML1 share around 90% homology between human and marmoset and have highly conserved structures. However, the protease-reacting bait regions of the proteins had lower homology (56.8-60.7% in proteins) relative to the rest of the sequence. Notably, the cleavage site of a proinflammatory proline-endopeptidase was preserved in human PZP and marmoset A2ML1. These proteins contain multiple sites that are cleaved by proteases involving proline-endopeptidase. Systemic regulation of these A2M family proteins may be important in animals with invasive placenta.The placental structure and molecular mechanism of pregnancy have been greatly changed during the evolution of eutherian mammals, even within the Euarchontoglires. For example, the rodent placenta develops a labyrinth-like structure with shallow interstitial invasion of trophoblasts, while the human placenta, which is evolutionarily newer than that of the macaque, is composed of trophoblasts that form chorions and deeply invade into the decidua to remodel maternal blood vessels 1,2 . In primates and rodents, trophoblast cells invading into the decidua construct a maternal-foetal interface, where semi-allograft foetal tissues are checked by the mother's immunity. Primates have longer gestation periods and more highly invasive maternal-foetal interfaces than those of rodents 3 . As the placenta becomes more invasive, the amount of oxygen and nutrient transportation increases owing to the expansion of blood vessels and reduction of vascular resistance. In humans, it is reported that placental invasion is related to brain growth, as large amounts of oxygen and nutrients may develop larger brains 4,5 . However, this benefit forces the trophoblasts to encounter the mother's immunity for a long period.Furthermore, it has also been suggested that foetal trophoblast cells, tissue pieces, and foetal non-methylated CpG DNA are circulating systemically throughout the body of species with highly invasive trophoblasts that are retained for a long period 6 . As these systemically circulating foetal tissues and DNAs may cause allogeneic reactions or innate inflammatory reactions outside of the placenta, immunoregulation outside of t...
Progesterone (P4) and glucocorticoid (GC) play crucial roles in the immunoregulation of a mother to accept and maintain a semi-allogenic fetus. P4 concentration increases during pregnancy and becomes much higher in the placenta than in the other peripheral tissues, wherein the concentration of cortisol (COR), the most abundant GC and a strong immunosuppressor, remains uniform throughout the rest of the body. Here, we evaluated the effect of a high-P4 environment on pregnant immunity by comparing it with COR. Naïve T cell proportion increased transiently in peripheral blood of pregnant women just after delivery and decreased after one month. T cells stimulated with superantigen toxic-shock-syndrome-1 (TSST-1) in the presence of P4 stayed in the naïve state and did not increase, irrespective of the presence of COR, and reactive T cells could not survive. Treatment of T cells with P4 without T cell receptor (TCR) stimulation transiently suppressed T cell activation and proliferation, whereas the levels remain unaltered if P4 was not given before stimulation. Comparison of the engraftment and response against specific antigens using hu-PBL-NOG-hIL-4-Tg mice showed that P4-pretreated lymphocytes preserved CD62L expression and engrafted effectively in the spleen. Moreover, they produced antigen-specific antibodies, whereas COR-pretreated lymphocytes did not. These results suggest that a high-P4 environment suppresses T cell activation and induces T cell migration into lymphoid tissues, where they maintain the ability to produce anti-pathogen antibodies, whereas COR does not preserve T cell function. The mechanism may be pivotal in maintaining non-fetus-specific T cell function in pregnancy.
The status of humoral immunity of cancer patients is not clear compared to cellular immunity because the ability of specific antibody production is difficult to analyze in vitro. We previously developed a humanized mouse model to evaluate antigen-specific antibody production by transplanting human peripheral blood mononuclear cells (PBMCs) into NOG-hIL-4-Tg mice (hu-PBL hIL-4 NOG). In this study, these mice were transplanted with PBMCs derived from breast cancer patients (BC) and immunized with a human epidermal growth factor receptor 2 (HER2) peptide, CH401MAP, to analyze humoral immunity of BCs. The hu-PBL hIL-4 NOG mice recapitulated immune environment of BCs as the ratio of CD8+/CD4+T cells was lower and that of PD-1 + T cells was higher compared to healthy donors (HDs). Diverse clusters were detected in BC-mouse (BC-M) plasma components involving immunoglobulins and complements unlike HD-M, and there was a significant diversity in CH401MAP-specific IgG titers in BC-M. The number of B cell clones producing high CH401MAP-specific IgG was not increased by immunization in BC-M unlike HD-M. These results demonstrated that the humoral immunity of BCs appeared as diverse phenotypes different from HDs in hu-PBL hIL-4 NOG mice, which may provide important information for the study of personalized medicine.
Mayer–Rokitansky–Küster–Hauser (MRKH) syndrome is characterized by congenital absence of the vagina and uterus. We conducted genome-wide SNP analyses and exome sequencing to detect the causes of MRKH syndrome. We identified de novo variants of MYCBP2, NAV3, and PTPN3 in three families and a variant of MYCBP2 in a sporadic case. Here, we demonstrated the partial genetic makeup of Japanese MRKH syndrome.
Serum concentrations of PP5 were measured by radioimmunoassay in 219 women with normal pregnancies and 163 women whose pregnancies were complicated. PP5 in serum disappeared rapidly after delivery, with a half-life of 5–10 min in the first 10min. Serum PP5 levels were higher in uterine than in antecubital venous blood. In normal pregnancies, PP5 was detectable at 7–8 weeks of gestation; its mean concentration rose gradually to a maximum of 17.8 ± 10.2 ng/ml at 34–35 weeks of gestation. Elevated serum PP5 concentrations were noted in patients whose pregnancies were complicated by toxemia of pregnancy with appropriate-for-date baby or by twin pregnancy. Low serum PP5 concentrations tended to be found in patients whose pregnancies were complicated by abortion, intrauterine fetal death, and hydatidiform mole. Marked abnormal PP5 levels were not found in patients with maternal diabetes and placenta previa. These findings suggest that the assay of serum PP5 concentrations can be a useful parameter in determining the prognosis of abnormal pregnancies.
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