Probiotic supplementation can reduce the negative impacts of polybrominated diphenyl ethers (PBDEs) on neurodevelopment, behaviour and metabolism, according to a new study.
PBDEs are fire-retardant chemicals that are found everywhere —
upholstery, carpets, curtains, electronics, and even infant products.
Known to disrupt
hormones and persist in the environment, these pollutants have been detected in
water, soil, air, food products, animals, human tissues and even breast milk,
according to the study by University of California, Riverside and published in Archives
of Toxicology.
“Exposure to PBDEs
during the perinatal period produces autistic-like behaviour and metabolism
syndrome in mice,” said Margarita C. Curras-Collazo, a professor of
neuroscience who led the study.
“These compounds
also disrupt the gut microbiome, which has been linked to brain and metabolic
health. Our study shows supplementing the maternal diet with the probiotic
Limosilactobacillus reuteri can help prevent these negative effects,”
Curras-Collazo added.
L reuteri, or LR,
typically resides in the digestive tract, where it generates lactic acid.
Additionally, it
can be found in beans, artichokes, and sweet potatoes, and in fermented foods
such as sourdough bread, as well as miso, kimchi, and sauerkraut. It is
frequently included in yogurts and other dairy products and, therefore, is
readily accessible.
The researchers
exposed mouse mothers to a PBDE mixture or a control (corn oil) during
pregnancy and breast-feeding. This was done over a 10-week period to model the
kind of exposures humans face.
Some of the mice
were supplemented with LR. The researchers then examined the offspring for
developmental benchmarks during the postnatal period and for behaviour during
adulthood.
They found male
offspring exposed to PBDEs had a delay in body weight gain. Further, their
incisor eruption was abnormally timed.
“To our surprise,
we found LR treatment prevented delays in male weight gain and helped normalize
the timing of tooth eruption in both sexes,” said Elena Kozlova, a doctoral
student working in Curras-Collazo’s lab and co-first author on the paper.
According to
Curras-Collazo, using gut microbiota-focused therapies before birth through the
mother may help protect against developmental and adult diseases linked to
toxic exposures.
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