Placenta is initiated first, as cells of a fertilised egg divide and specialise

The first stages of placental development take place days before the embryo starts to form in human pregnancies. This new finding highlights the importance of healthy placental development in pregnancy, and could lead to future improvements in fertility treatments such as IVF, and a better understanding of placental-related diseases in pregnancy.

Understanding the process of early human development in the womb could provide us with insights that may lead to improvements in IVF success rates in the future.

Kathy Niakan

In a study published today in the journal Nature, researchers looked at the biological pathways active in human embryos during their first few days of development to understand how cells acquire different fates and functions within the early embryo.

They observed that shortly after fertilisation as cells start to divide, some cells start to stick together. This triggers a cascade of molecular events that initiate placental development. A subset of cells change shape, or ‘polarise’, and this drives the change into a placental progenitor cell – the precursor to a specialised placenta cell – that can be distinguished by differences in genes and proteins from other cells in the embryo.

“This study highlights the critical importance of the placenta for healthy human development,” said Dr Kathy Niakan, group leader of the Human Embryo and Stem Cell Laboratory at the Francis Crick Institute and Professor of Reproductive Physiology at the University of Cambridge, and senior author of the study.

Niakan added: “If the molecular mechanism we discovered for this first cell decision in humans is not appropriately established, this will have significant negative consequences for the development of the embryo and its ability to successfully implant in the womb.”

The team also examined the same developmental pathways in mouse and cow embryos. They found that while the mechanisms of later stages of development differ between species, the placental progenitor is still the first cell to differentiate.

“We’ve shown that one of the earliest cell decisions during development is widespread in mammals, and this will help form the basis of future developmental research. Next we must further interrogate these pathways to identify biomarkers and facilitate healthy placental development in people, and also cows or other domestic animals,” said Claudia Gerri, lead author of the study and postdoctoral training fellow in the Human Embryo and Stem Cell Laboratory at the Francis Crick Institute.

During IVF, one of the most significant predictors of an embryo implanting in the womb is the appearance of placental progenitor cells under the microscope. If researchers could identify better markers of placental health or find ways to improve it, this could make a difference for people struggling to conceive.

“Understanding the process of early human development in the womb could provide us with insights that may lead to improvements in IVF success rates in the future. It could also allow us to understand early placental dysfunctions that can pose a risk to human health later in pregnancy,” said Niakan.

The research was led by scientists at the Francis Crick Institute, in collaboration with colleagues at the Royal Veterinary College, Vrije Universiteit Brussel, Université de Nantes and Bourn Hall Clinic. Kathy Niakan is incoming Director of the University of Cambridge’s Centre for Trophoblast Research, and Chair of the Cambridge Strategic Research Initiative in Reproduction.

The work was funded by the UK Medical Research Council, Wellcome and Cancer Research UK. It was approved by the UK Human Fertilisation and Embryology Authority (HFEA) and the Health Research Authority’s Research Ethics Committee.

Reference

Gerri, C. et al.: ‘Initiation of a conserved trophectoderm program in human, cow and mouse embryos.’ Nature, Sept 2020. DOI: 10.1038/s41586-020-2759-x.

Adapted from a press release by the Francis Crick Institute.

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