How Does The Brain Develop In Individuals With Autism?

Geneticists have used a new mouse model to demonstrate the way a certain genetic mutation is linked to a type of autism in humans and affects brain development and behavior
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Geneticists have used a new mouse model to demonstrate the way a certain genetic mutation is linked to a type of autism in humans and affects brain development and behavior. In the brain of genetically altered mice, the protein FOXP1 is not synthesized, which is also the case for individuals with a certain form of autism. Consequently, after birth the brain structures degenerate that play a key role in perception. The mice also exhibited abnormal behavior that is typical of autism. The new mouse model now allows the molecular mechanisms in which FOXP1 plays a role to be explained and the associated changes in the brain to be better understood. The results have now been published in a preliminary online version in the journal Molecular Psychiatry.
 
Autism is a congenital perception and information-processing disorder in the brain that is frequently accompanied by intellectual disability and in rare cases, superior intelligence and special gifts such as photographic memory. The disorder is characterized by limited social interaction, repetitive behavior and language impairment. Furthermore, a wide range of other disturbances can occur. "Today, in addition to the defect in the FOXP1 gene, we are familiar with other genetic mutations that cause autism or increase the risk of this kind of disorder. However, we are only able to understand how they affect the molecular processes in the neurons, brain development and behavior for a few of these mutations," one of the researchers said.
 
This is also the case for FOXP1. Back in 2010, clear signs that structural flaws in this protein play a role in autism and mental disability had been discovered. But what role does it play in the healthy brain? What signal pathways is it involved in? Which other proteins does it interact with and exactly what damage is caused by its absence? The new mouse model has helped to shed light on these questions. The researchers discovered that the mice were born with a normally developed brain for the most part. During the course of the first weeks of life, the striatum, which is important for perception and behavior, degenerates. In a centrally located brain structure as well - the hippocampus - which is indispensable for developing long-term memory and recall, microscopically visible changes occur that can also impact signal processing. It could be proven, for example, that in the affected neurons the impulse conduction is changed through which signals are transmitted between neurons.
 
In addition to the striatum, the ventricles of the brain are degenerated; these are adjacent structures in the murine brain. The changes also trigger abnormal behavior that is comparable to the symptoms of autistic patients. The mice barely noticed their fellow mice and did not attempt to make contact to them. Further symptoms include stereotypical compulsive repetitive behaviors, hyperactivity and disturbed nestbuilding behavior.
 
The researchers now intend to study to what extent the communication of noise by FOXP1 mice (mice communicate via noises in the ultrasonic range) is impaired and whether there are also parallels to the disturbances in patients with FOXP1 mutation in this area as well. In addition, they plan to characterize the newly identified genes impacted by the FOXP1 in the brain and find out which signaling cascades and response paths are disrupted. In this way, they hope to find starting points for a specific treatment.