Maternal selection of human embryos in early gestation: Insights from recurrent miscarriage

Maternal selection of human embryos in early gestation: Insights from recurrent miscarriage

Compared to most mammals, human pregnancy is unusual in that it involves chromosomally diverse embryos, cyclical breakdown and regeneration of the uterine mucosa, and intimate integration of fetal and maternal cells at the uteroplacental interface. Not surprisingly, pregnancy often falters in early...

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Bibliographic Details
Published in:Seminars in cell & developmental biology Vol. 131; pp. 14 - 24
Main Authors: Brosens, Jan J., Bennett, Phillip R., Abrahams, Vikki M., Ramhorst, Rosanna, Coomarasamy, Arri, Quenby, Siobhan, Lucas, Emma S., McCoy, Rajiv C.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-11-2022
Subjects:
Abortion, Habitual - etiology
Aneuploidy
Animals
Decidualization
Embryo
Embryo, Mammalian
Endometrium
Female
Humans
Mammals
Miscarriage
Placenta
Pregnancy
Selection
BMPC
Embryo
APS
Selection
HLA-C
Aneuploidy
hCG
Decidualization
uNK cells
Placenta
KIR
PSSC
PGT-A
aPL
Miscarriage
Endometrium
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Summary:Compared to most mammals, human pregnancy is unusual in that it involves chromosomally diverse embryos, cyclical breakdown and regeneration of the uterine mucosa, and intimate integration of fetal and maternal cells at the uteroplacental interface. Not surprisingly, pregnancy often falters in early gestation. Whether these losses result in clinical miscarriages depends on the origins and impacts of chromosomal errors on fetal development and the ability of the decidualizing endometrium to engage in embryo biosensing and selection. Aneuploidy originating in oocytes during meiosis drives the age-related risk of miscarriage. By contrast, the frequency of endometrial cycles with an impaired decidual response may account for the stepwise increase in miscarriage rates with each pregnancy loss independently of maternal age. Additional physiological mechanisms operate in early gestation to ensure that most failing pregnancies are lost before vascular maternal-fetal connections are established by the end of the first trimester. Here, we summarise how investigations into the mechanisms that cause miscarriage led to new insights into the processes that govern maternal selection of human embryos in early gestation.
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ISSN:1084-9521
1096-3634
1096-3634
DOI:10.1016/j.semcdb.2022.01.007