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Oxytocin could help treat some forms of autism, researchers find

Oxytocin may be an effective treatment for some forms of autism, say McMaster researchers who have shown that, in mice, the hormone can  correct patterns of brain activity associated with reduced social interest.

Using a combination of two brain-mapping techniques, fMRI and iDISCO, researchers imaged the brains of mice missing the CNTNAP2 gene, previously linked to autism spectrum disorder (ASD).

Mice express social interest by sniffing one another, and those without the  gene display only half as much of that behaviour. The imaging showed that several brain regions of the genetically altered mice were connected differently compared to normal mice. More specifically, the parts of the brain that typically work together to produce social behaviour are more poorly connected.

Once the altered mice were injected with oxytocin, those differences normalized.

“The injection robustly activated many brain regions of the modified mice and essentially normalized the brain connectivity differences we previously found,” says lead researcher Katrina Choe, an assistant professor in the department of Psychology, Neuroscience & Behaviour.

Earlier research had discovered that mice with the gene mutation have lower natural oxytocin levels. It also found oxytocin injections increased their social behaviours.

“We were interested in which brain regions are wired differently in these mice,” says Choe. “We wanted to connect these findings to social deficits in these mice, by testing if oxytocin in fact normalizes these patterns to increase their social behaviour.”

Researchers also discovered oxytocin could play an important role within the nucleus accumbens, a brain region associated with processing social reward.

“Our results serve as additional evidence implicating the brain oxytocin system into social behaviour differences arising from ASD-risk gene mutations such as CNTNAP2. Additionally, our novel strategy of combining two brain-mapping methods allowed us to comprehensively identify the brain regions and circuits that could be involved in this process. This information can be useful for further exploration of oxytocin as a potential treatment target for ASD,” she says.

The results of the study appear in the journal Neuron.

The work was performed at UCLA when Choe was a postdoctoral fellow in the laboratory of Daniel Geschwind, who co-led the study. This study was then continued at McMaster.

Researchers from UCLA, the University of Cambridge, the University of Heidelberg and the University of the Basque Country in Spain also contributed to this research, with financial support from the National Institutes of Health, Simons Foundation Autism Research Initiative and Canadian Institutes of Health Research.

The next part of the research will look at whether similar abnormal brain patterns exist in mice which are missing other autism-related genes and whether oxytocin has similar effects, Choe says.

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