Heart disease is the greatest killer in the world today, and it is widely accepted that our genes interact with traditional lifestyle risk factors, such as smoking, obesity and/or a sedentary life to promote an increased risk of cardiovascular disease. However, a new study in sheep, publishing January 22 in the open-access journal PLOS Biology, by a team from Cambridge University, finds that offspring whose mothers had a complicated pregnancy may be at greater risk of heart disease in later life, suggesting that our cards may be marked even before we are born.
In addition to the effects of adult lifestyle, there is already evidence that the gene-environment interaction before birth may be just as, if not more, important in “programming” future heart health and heart disease. For instance, human studies in siblings show that children born to a mother who was obese during pregnancy are at greater risk of heart disease than siblings born to the same mother after bariatric surgery to reduce maternal obesity. Such studies have provided strong evidence in humans that the environment experienced during critical periods of development can directly influence long-term cardiovascular health and heart disease risk.
The new research funded by The British Heart Foundation and the Biotechnology and Biological Sciences Research Council UK shows that adult offspring from pregnancies complicated by chronic hypoxia have increased indicators of cardiovascular disease, such as high blood pressure and stiffer blood vessels. Chronic hypoxia or lower-than-normal oxygen levels in the developing baby within the womb is one of the most common outcomes of complicated pregnancy in humans. It occurs as a result of problems within the placenta, as can occur in preeclampsia, gestational diabetes or maternal smoking.
The Cambridge study, led by Professor Dino Giussani, used pregnant sheep to show that maternal treatment with the antioxidant vitamin C during a complicated pregnancy could protect the adult offspring from developing hypertension and heart disease. The work therefore not only provides evidence that a prenatal influence on later heart disease in the offspring is indeed possible, but also shows the potential to protect against it by “bringing preventative medicine back into the womb,” as Dr. Kirsty Brain, first author of the study, puts it.
It turns out that vitamin C is a comparatively weak antioxidant, and while the Cambridge study provides a proof-of-principle, future work will focus on identifying alternative antioxidant therapies that could prove more effective in human clinical practice.
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