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28/10/2021

Specific form of autism identified, hallmarked by “neurons with too many synapses”

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The study by researchers at IIT in Rovereto and at the University of Pisa published in the journal Nature Communications

The autism spectrum is marked by a high degree of heterogeneity, with symptoms and dysfunctions at a neurological level having different degrees of severity and impact. Researchers at the Istituto Italiano di Tecnologia (Italian Institute of Technology, IIT) and at the University of Pisa have identified a form of autism caused by a specific neuronal alteration: the presence of an excessive number of synapses in the cerebral cortex. This discovery, published in the journal Nature Communications, might help guide the development of future pharmacological treatments designed to correct these variations.

The research group includes Alessandro Gozzi, Coordinator of the Centre for Neurosciences and Cognitive Systems (CNCS) at IIT in Rovereto, Michael Lombardo, senior researcher at IIT, and Prof. Massimo Pasqualetti from the University of Pisa. Gozzi and Lombardo are performing research on the brain with resources provided in part by finance from the European Research Council (ERC).

More specifically, experimental observations in animal models using magnetic resonance imaging revealed that an excessive number of synapses, i.e. the microscopic protuberances that send and receive signals amongst neurons, produce dysfunction in brain circuits that are crucial for brain function and social communication.

The researchers further showed that this alteration can be linked to aberrant mTOR protein activity, a key regulator of the production of synapses and a potential target for pharmacological treatment. The investigators confirmed this notion by showing that, when mTOR-hyperactivity is pharmacologically inhibited, the number of synapses returns to physiological levels, completely restoring the functionality and connectivity of the circuits involved.

Based on these results, the researchers then used machine learning methods to investigate whether this specific circuit dysfunction could be identified and singled-out in publicly-available brain scans of people with autism, thereby defining a specific form of autism. This activity revealed that a subgroup of scans do exhibit cerebral connectivity dysfunction very similar to that seen in the murine model. Importantly, a subsequent genetic decoding showed that the identified circuital dysfunction can be mechanistically linked to aberrant mTOR protein activity.

“This work is part of a larger research program aimed to map brain connectivity and understand neurodevelopmental disorders at our Research Centre in Rovereto.”, told Alessandro Gozzi, coordinator of CNCS at IIT. “Our results might help decode the mosaic of autism, which in fact is a heterogeneous group of problems and causes. The challenge that lies ahead of us is now the identification of all the remaining pieces of the autism mosaic, which might enable the future development of precision therapy targeted to specific subsets of autism.”

 “This study shows”, concluded Pasqualetti, “just how important it is to juxtapose advanced models for the study of the functioning of our brain alongside clinical research, both to understand which molecular and cellular alterations could be involved in the origin of the pathology; and to test, on the same models, experimental pharmaceutical protocols or therapeutic interventions which could ameliorate or even correct the cellular alterations observed in the pathological condition”.

The research study has been supported by grants from European Research Council, European Union’s Horizon 2020 – MSCA programme, and Simons Foundation.

Link to publication:  https://www.nature.com/articles/s41467-021-26131-z

Link to Gozzi Lab: https://www.iit.it/it/web/functional-neuroimaging