AUTHORS: Meli\u0161kov\u00e1, V., Havr\u00e1nek, T., Ba\u010dov\u00e1, Z. and Bako\u0161, J.<\/p>\n
ABSTRACT: Pathological changes in synapse formation, plasticity and devel<\/span>opment are caused by altered trafficking and assembly of postsy<\/span>naptic scaffolding proteins at sites of glutamatergic and gamma-<\/span>aminobutyric acid synapses, suggesting their involvement in the eti<\/span>ology of neurodevelopmental disorders, including autism. Several <\/span>autism-related mouse models have been developed in recent years <\/span>for studying molecular, cellular and behavioural defects to under<\/span>stand the etiology of autism and test potential treatment strategies. <\/span>In this review, the role of alterations in selected postsynaptic scaf<\/span>folding proteins in relevant transgene autism-like mouse models is <\/span>explained. A summary is also provided of selected animal models by <\/span>paying special attention to interactions between guanylate kinases <\/span>or membrane-associated guanylate kinases, as well as other synapse <\/span>protein components which form functional synaptic networks. The <\/span>study of early developmental stages of autism-relevant animal mod<\/span>els help in the understanding the origin and development of diverse <\/span>autistic symptomatology.<\/span><\/p>\n J. Integr. Neurosci.<\/i> 2021 , 20(4), 1047\u2013105<\/p>\n