Scientists performed the research on mice with different gut microbiota. While one group had bacteria linked to a stronger inflammatory response triggered by IL-17a, the control group did not.
When they supressed IL-17a artificially at the pups, both groups displayed neurotypical behavior, but later on, when the human interference stopped and the mice grew naturally, those of the first group showed symptoms typical of autism, such as repetitive behavior
Afterwords, researchers used the feces of the mice in the first group to perform a fecal transplant on the mice in the second group to effectively transfer the pro-inflammatory gut bacteria. As suspected, the mice from the second group also developed autism-like behavior.
Study identifies possible connection to autism development, a molecule produced by the immune system called interleukin-17a, or IL-17a.
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While researchers have only conducted the study on mice, it does provide a foundation for further research that could determine the extent the mother’s gut health contributes to the development of neurodevelopmental disorders.
“In terms of translating our work to humans, I think the next big step would be to identify features of the microbiome in pregnant mothers that correlate with autism risk,” Lukens said. “I think the really important thing is to figure out what kind of things can be used to modulate the microbiome in the mother as effectively and safely as we can.”Health
