Glutamate mediated signaling in the pathophysiology of autism spectrum disorders

Autism spectrum disorder (ASD) is a childhood neurodevelopmental disorder. During fetal and neonatal brain development, the cues for neurodevelopment are regulated in a well orchestrated manner. Generally, neurotransmitters play a major role in the formation of central nervous system (CNS) and peripheral nervous system (PNS). Glutamate, the excitatory neurotransmitter actively participates in various neurodevelopmental processes through complex regulatory events. Excitatory neurotransmitter signaling via glutamate receptors modulates cognitive functions such as memory and learning, which are usually impaired in ASD. Therefore, glutamate and its regulatory molecules are considered as potential targets for these disorders. Pharmacological, biochemical and behavioral studies reveal possible involvement of glutamatergic system in ASD pathology. An abnormal increase in electrical activity resulting from excessive glutamate signaling causes prolonged alterations in behavior, as commonly seen in ASDs. On the contrary, reports on animal models of hypoglutamatergia demonstrate phenotypes that overlap with features seen in autism. So controversies prevail whether to regard autism as hyper- or hypo-glutamatergic disorder. This paper reviews the role of glutamate and its regulatory proteins such as different receptors, transporters and metabolizing enzymes in the pathophysiology of ASD based on evidences gathered through multidisciplinary approaches. All these information raise the possibility of exploiting glutamatergic neurotransmitter system for future therapeutic interventions for ASD. (C) 2011 Published by Elsevier Inc.