Restoring levels of specific gut microbes might help treat fertility issues in people with PCOS
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Women with polycystic ovary syndrome (PCOS) have lower levels of a gut microbe, which appears to raise the risk of pregnancy complications.
PCOS is the most common hormonal condition in women of reproductive age and is a leading cause of infertility. Yet relatively little is understood about what causes it or how to best treat it. For instance, it isn’t clear why those with PCOS who are able to get pregnant have a higher risk of complications like miscarriage, preterm birth and gestational diabetes.
Aixia Liu at Zhejiang University in China and her colleagues monitored pregnancy outcomes in 220 women across 44 cities in China, half of whom had PCOS. All of them were under 35 years old and provided blood, stool and tissues samples of their endometrium, or the inner lining of the uterus.
Despite similar pregnancy rates, those with PCOS were nearly twice as likely to experience a pregnancy complication, such as miscarriage, preterm birth, gestational diabetes or a child with low birth weight. The researchers also found that those with PCOS had about half the amount of a gut bacterium called Parabacteroides merdae than those without the condition and that this was associated with pregnancy outcomes.
P. merdae helps convert certain nutrients, such as the amino acid isoleucine, into beneficial compounds called short-chain fatty acids that play an important role in reproductive health. This probably explain why participants with PCOS had, on average, about 39 per cent more isoleucine and 10 per cent lower levels of short-chain fatty acids in blood samples than those without it. They also had higher levels of isoleucine in endometrial tissues.
When the researchers cultured the participants’ endometrial cells and exposed them to isoleucine in a dish, they saw an increase in markers of cellular senescence, where cells become so worn or damaged that they cease to function. The isoleucine also hindered the process endometrial cells undergo in preparation for, and during, pregnancy.
“These findings indicate ageing-like changes in the uterus,” said Liu in a press release from an annual meeting of the European Society of Human Reproduction and Embryology, where she presented these findings. “Our data suggest that high isoleucine levels and the loss of P. merdae may impair endometrial health, even in women under 35.”
While this suggests that changes to the gut microbiome may contribute to fertility issues in PCOS, Andrea Dunaif at the Icahn School of Medicine at Mount Sinai in New York is sceptical. Her own research suggests that reproductive ageing in PCOS is delayed, rather than accelerated. “Their reproductive abnormalities tend to improve in their 30s,” says Dunaif. “That makes me sceptical about how significant the endometrial findings are, and if they are really what is responsible for these alterations and pregnancy outcomes.”
Still, these findings could lead to improved fertility treatments for PCOS. “The microbiome is something [where] you could intervene with different probiotics to alter the [bacteria],” says Dunaif. “So that is nice to have a potential target to treat because we don’t really have any specific treatments for PCOS.”
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