Scientists can predict which women will have serious pregnancy complications

June 09, 2021

Many of these complications lead to difficult labours for women with more medical intervention and lifelong issues for the baby including diabetes, heart issues and obesity. Pregnancy disorders affect around one in ten pregnant women, but current methods to diagnose them are not sensitive or reliable enough to identify all at-risk pregnancies. Now scientists have found a way to test hormone levels in the placenta to predict which women will have serious pregnancy complications. “We found that hormonal biomarkers from the placenta could indicate which women would have pregnancy complications,” said Dr Amanda Sferruzzi-Perri in the University of Cambridge’s Department of Physiology, Development and Neuroscience, who led the study. Placental secretome characterization identified candidates for pregnancy complications.

Nearly all of the organ systems of the mother’s body need to alter their function during pregnancy so that the baby can grow. If the mother’s body cannot properly adapt to the growing baby this leads to major and common issues including fetal growth restriction, fetal over-growth, gestational diabetes, and preeclampsia – a life-threatening high blood pressure in the mother. 

Many of these complications lead to difficult labours for women with more medical intervention and lifelong issues for the baby including diabetes, heart issues and obesity. 

Pregnancy disorders affect around one in ten pregnant women, but current methods to diagnose them are not sensitive or reliable enough to identify all at-risk pregnancies.

Now scientists have found a way to test hormone levels in the placenta to predict which women will have serious pregnancy complications. Their study is published today in the journal Nature Communications Biology

“We found that hormonal biomarkers from the placenta could indicate which women would have pregnancy complications,” said Dr Amanda Sferruzzi-Perri in the University of Cambridge’s Department of Physiology, Development and Neuroscience, who led the study.

She added: “We found that these hormonal biomarkers are present from the first trimester of pregnancy. This is a highly important finding given that pregnancy disorders affect around one in ten pregnant women and are often diagnosed too late, when the complications are already wreaking havoc on the mother’s body and the fetal development.”

Using mouse models, researchers looked at the proteins made by the placenta and compared them to blood samples from women who had uneventful pregnancies and those who developed gestational diabetes. The team developed new methods to isolate and study the endocrine cells in the mouse placenta because these cells are responsible for secreting hormones during pregnancy. 

They profiled the placenta to identify the hormones that are secreted to create a comprehensive map of proteins in the mysterious organ. The mouse model map of hormonal proteins from the placenta was then compared with datasets from studies of the human placenta and pregnancy outcomes and researchers discovered a lot of biological overlap. 

Dr Sferruzzi-Perri said: “We found that around a third of the proteins we identified changed in women during pregnancies with disorders. Using a small study to test if these placental proteins will have some clinical value, we also discovered that abnormal levels of hormones were present in the mother’s blood as early as the first trimester – week 12 of gestation – in women who developed gestational diabetes, a pregnancy complication usually diagnosed at 24-28 weeks. 

“We also identified several specific transcription factors – proteins within the cell that turn on or off genes – that are likely to govern the production of placental hormones which have important implications for understanding how we may improve pregnancy outcomes.”

The scientists explored whether these genetic biomarkers were detectable during pregnancy and used a study that tracked pregnancy outcomes in women at Addenbrooke’s Hospital in Cambridge. They found that blood samples showed these biomarkers in early pregnancy which could lead to earlier diagnosis of complications allowing treatment to begin more quickly.

Dr Claire Meek, a diabetes in pregnancy physician and researcher at Addenbrooke’s, said: “This pregnancy-induced form of diabetes causes accelerated growth of the baby and complications at the time of delivery. Unfortunately, some women already have signs of a big baby at the time of diagnosis at 28 weeks. This new test might be able to identify gestational diabetes earlier in pregnancy, providing opportunities to prevent the disease, or to protect mums and babies from the most harmful complications.” 

Dr Sferruzzi-Perri said: “This work provides new hope that a better understanding of the placenta will result in safer, healthier pregnancies for mothers and babies. Our team is now working to assess whether these discoveries could improve clinical care in future, either through earlier diagnosis or to provide new opportunities to treat these pregnancy complications by targeting the placenta.”

The placenta is a complex biological organ. It forms and grows from the fertilised egg, and attaches to the wall of the uterus. It allows nutrients and oxygen to flow from mother to baby, and removes fetal waste products. Despite its importance, the placenta is a very misunderstood organ and is notoriously difficult to study in pregnant women. But its ability to function properly is vital as it impacts on pregnancy outcomes and the lifelong health of mother and child.

The placenta develops during pregnancy and connects the developing baby to the mother. It serves as the lungs, kidneys, gut and liver for growing babies and carries oxygen and nutrients to the fetus whilst secreting hormones and discarding waste.

Reference

Napso, T. et al. Placental secretome characterization identified candidates for pregnancy complications. Nature Communications Biology, June 2021. DOI: https://doi.org/10.1038/s42003-021-02214-x

Adapted from a press release by St John's College, Cambridge

 

The source of this news is from University of Cambridge

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