Eva Dimitriadis scite author profile

The endometrium is normally a hostile environment for an embryo, except for a short phase in each reproductive cycle known as the 'window of receptivity'. The precise molecular events involved in this transformation are not well understood. Application of state-of-the-art techniques of the 1990s has identified some of the genes involved, which are reviewed here. Mice with a null mutation in either the gene for leukemia inhibitory factor or the interleukin-11 receptor alpha chain are infertile, owing in both cases to a failure of embryo implantation. Both of these genes are expressed in the human endometrium with patterns suggesting a role in human fertility. The technique of RNA differential display has been applied to a comparison of the expression of genes at implantation sites v. inter-implantation sites in the mouse uterus on the first day of implantation, and has defined additional genes whose products may be important for this process. Among these are the calcium-binding protein D9K, the monoclonal non-specific suppressor factor beta, and the splicing factor SC35. The major challenge is to determine whether manipulation of such genes can increase or decrease endometrial receptivity in humans.

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The role of leukemia inhibitory factor in tubal ectopic pregnancy

Krishnan¹,

Winship²,

Sonderegger³

et al. 2013

Placenta

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Subcellular localization of L-selectin ligand in the endometrium implies a novel function for pinopodes in endometrial receptivity

Nejatbakhsh

Kabir-Salmani

Dimitriadis

et al. 2012

Reprod Biol Endocrinol

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BackgroundApical surfaces of human endometrial epithelium and endothelium are key elements for the initiation of molecular interactions to capture the blastocyst or leukocyte, respectively. The L-selectin adhesion system has been strongly proposed to play an important role in the initial steps of trophoblast adhesion and promotion of integrin-dependent processes, ultimately culminating in the establishment of the embryo-maternal interface. On the basis of these facts, we hypothesized a novel role for pinopodes as the first embryo-fetal contact sites to contain the highest subcellular expression of L-selectin ligand suggesting its role in early adhesion as predicted. Thus, the objective of this study was therefore to determine the subcellular pattern of distribution of the L-selectin ligand (MECA-79) in human endometrial apical membrane region during the window of implantation.MethodsEndometrial biopsies of secretory phases from fertile females ranging in age between 25 and 42years were studied using several approaches, including scanning electron microscopy (SEM), immunostaining for light microscopy and transmission electron microscopy (TEM), and immunoblotting as well as statistical analysis of the area-related numerical densities of immunoreactive MECA-79-bound nanogolds to detect the expression pattern and the subcellular distribution pattern of L-selectin ligand (MECA-79) in human endometrium during the window of implantation.ResultsThe endometrial biopsies were scored according the dating criteria of Noyes et al. by an experienced histologist. The SEM images of the midluteal phase specimens revealed that fully developed pinopodes were abundant in our samples. HRP-immunostaining and immunofluorescent staining as well as immunoblotting revealed that MECA-79 was expressed in the midluteal phase specimens. The results of immunogold TEM illustrated the expression of MECA-79 in human pinopodes in the midluteal phase and a higher area-relate numerical density in pinopodes compared to that of the uterodome-free areas.ConclusionsThis is the first demonstration of the subcellular localization of MECA-79 in the human pinopodes which may indicate a novel role for pinopodes to be capable of shear-stress-dependent tethering-type adhesion in the initial phases of human embryo implantation.

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New generation contraceptives: interleukin 11 family cytokines as non-steroidal contraceptive targets

Dimitriadis¹,

Menkhorst²

2011

Journal of Reproductive Immunology

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Molecular and Cellular Basis of Human Embryo Implantation

Nie

Dimitriadis

2019

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Blocking Leukemia Inhibitory Factor impairs trophoblast invasion and leads to abnormal placentation and pregnancy loss in mice

Winship

Correia²,

Menkhorst³

et al. 2015

Placenta

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The human periconceptional maternal-embryonic space in health and disease

Moreno

Capalbo²,

Mas

et al. 2023

Physiological Reviews

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Pregnancy is established during the periconceptional period as a continuum beginning with blastocyst attachment to the endometrial epithelial surface followed by embryo invasion and placenta formation. This period sets the foundation for the child and mother's health during pregnancy. Emerging evidence indicates that prevention of downstream pathologies in both the embryo/newborn and pregnant mother may be possible at this stage. In this review, we discuss current advances in the periconceptional space, including the preimplantation human embryo and maternal endometrium. We also discuss the role of the maternal decidua, the periconceptional maternal-embryonic interface, the dialogue between these elements, and the importance of the endometrial microbiome in the implantation process and pregnancy. Finally, we discuss the myometrium in the periconceptional space and review its role in determining pregnancy health.

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Trophoblast-decidual crosstalk optimises trophoblast invasion

Menkhorst

Gamage

Van³

et al. 2014

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Eva Dimitriadis

Genes involved in implantation

The role of leukemia inhibitory factor in tubal ectopic pregnancy

Subcellular localization of L-selectin ligand in the endometrium implies a novel function for pinopodes in endometrial receptivity

New generation contraceptives: interleukin 11 family cytokines as non-steroidal contraceptive targets

Molecular and Cellular Basis of Human Embryo Implantation

Blocking Leukemia Inhibitory Factor impairs trophoblast invasion and leads to abnormal placentation and pregnancy loss in mice

The human periconceptional maternal-embryonic space in health and disease

Trophoblast-decidual crosstalk optimises trophoblast invasion

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