mTOR-related synaptic pathology causes autism spectrum disorder-associated functional hyperconnectivity

Author:

Pagani MarcoORCID,Barsotti Noemi,Bertero Alice,Trakoshis Stavros,Ulysse Laura,Locarno Andrea,Miseviciute Ieva,De Felice Alessia,Canella Carola,Supekar Kaustubh,Galbusera AlbertoORCID,Menon Vinod,Tonini RaffaellaORCID,Deco Gustavo,Lombardo Michael V.ORCID,Pasqualetti MassimoORCID,Gozzi AlessandroORCID

Abstract

AbstractPostmortem studies have revealed increased density of excitatory synapses in the brains of individuals with autism spectrum disorder (ASD), with a putative link to aberrant mTOR-dependent synaptic pruning. ASD is also characterized by atypical macroscale functional connectivity as measured with resting-state fMRI (rsfMRI). These observations raise the question of whether excess of synapses causes aberrant functional connectivity in ASD. Using rsfMRI, electrophysiology and in silico modelling in Tsc2 haploinsufficient mice, we show that mTOR-dependent increased spine density is associated with ASD -like stereotypies and cortico-striatal hyperconnectivity. These deficits are completely rescued by pharmacological inhibition of mTOR. Notably, we further demonstrate that children with idiopathic ASD exhibit analogous cortical-striatal hyperconnectivity, and document that this connectivity fingerprint is enriched for ASD-dysregulated genes interacting with mTOR or Tsc2. Finally, we show that the identified transcriptomic signature is predominantly expressed in a subset of children with autism, thereby defining a segregable autism subtype. Our findings causally link mTOR-related synaptic pathology to large-scale network aberrations, revealing a unifying multi-scale framework that mechanistically reconciles developmental synaptopathy and functional hyperconnectivity in autism.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry

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