Effect of glutamate transporter EAAT2 gene variants and gray matter deficits on working memory in schizophrenia.

Glutamate is the major excitatory neurotransmitter in the brain, with up to 40% of all synapses being glutamatergic. An altered glutamatergic transmission could play a critical role in working memory deficts observed in schizophrenia and could underline progressive changes such as grey matter loss throughout the brain. The aim of the study was to investigate if gray matter volume and working memory could be modulated by a genetic polymorphism related to glutamatergic function. Fifty schizophrenia patients underwent magnetic resonance and working memory testing outside of the scanner and were genotyped for rs4354668 EAAT2 polymorphism. Carriers of the G allele had lower gray matter volumes than T/T homozygote and worse working memory performance. Poor working memory performance was associated with gray matter reduction. Differences between the three genotypes are more relevant among patients showing poor performance at the 2-back task. Since glutamate abnormalities are known to be involved in excitotoxic processes, the decrease in cortical thickness observed in schizophrenia patients could be linked to an excess of extracellular glutamate. The differential effect of EAAT2 observed between good and poor performers suggests that the effect of EEAT2 on gray matter might reveal in the presence of a pathological process affecting gray matter.

Poletti S ，Radaelli D ，Bosia M ，Buonocore M ，Pirovano A ，Lorenzi C ，Cavallaro R ，Smeraldi E ，Benedetti F ... -  《-》

Cognitive dysfunction and glutamate reuptake: effect of EAAT2 polymorphism in schizophrenia.

A disturbance of glutamatergic transmission has been suggested to contribute to the development of schizophrenic pathophysiology, based primarily on the ability of glutamate receptor antagonists to induce schizophrenic-like symptoms. The excitatory amino acid transporter 2 (EAAT2) is responsible for the majority of glutamate uptake. It also contributes to energy metabolism in the brain, by transporting glutamate into astrocytes for conversion into glutamine. A dysregulation of its level of expression has been associated with multiple neurological disorders. Blocking glutamate uptake by EAAT2 in cultured oligodendrocytes leads to cell death, demyelination and axonal damage, suggesting that it is crucial for normal oligodendrocyte function. Different studies focused on EAAT2 alterations among subjects affected by schizophrenia, reporting a decreased expression in the parahippocampal region and in the dorsolateral prefrontal cortex. Moreover, subjects with the high-risk metabotropic glutamate receptor 3 (GRM3) haplotype associated with schizophrenia had lower EAAT2 expression in the prefrontal cortex and also showed impaired cognitive performances for measures of verbal list learning and verbal fluency. EAAT2 protein activity is regulated by a SNP rs4354668 (-181T/G) which falls in the gene promoter region, with the G allele resulting in a lower activity of the transporter. Based on these data, we assessed possible effects of the -181T/G EAAT2 polymorphism on two core prefrontal cognitive performances, known to be impaired in schizophrenia, in a sample of 211 clinically stabilized patients. We observed better executive functions (WCST, no. of categories) and working memory (N-back: 1-back, 2-back) performances in subjects homozygous for the T allele, compared to the G carriers group. These observations suggest that the presence of the G allele is associated, among patients with schizophrenia, with a disadvantageous effect on core cognitive functions that depend on prefrontal cortex activity. These results are preliminary and need to be replicated by future and larger studies, however they suggest that EAAT2 inefficiency may represent a target of interest for development of pharmacological strategies aimed to improve prefrontal performances by compensating the impaired glutamate reuptake.

Spangaro M ，Bosia M ，Zanoletti A ，Bechi M ，Cocchi F ，Pirovano A ，Lorenzi C ，Bramanti P ，Benedetti F ，Smeraldi E ，Cavallaro R ... -  《-》

Neurobiology of cognitive remediation in schizophrenia: Effects of EAAT2 polymorphism.

Cognitive deficits represent core features of schizophrenia, affecting quality of life and functioning. The excitatory amino acid transporter 2 (EAAT2) is responsible for the majority of glutamate reuptake and its activity is crucial for glutamatergic neurotransmission, prevention of excitotoxic damage and cerebral metabolism. Different studies reported that EAAT2 rs4354668 (-181 T/G) influences cognitive functions and brain structures in patients with schizophrenia. Specifically, the G allele, linked to lower EAAT2 expression, was associated with impaired prefrontal cognitive performance and reduced grey matter volumes. Cognitive remediation therapy (CRT) is one of the best available tool to treat cognitive deficits in schizophrenia, able to induce a neuroplastic modulation of cognitive functions. The present study aims to investigate the effects of rs4354668 on CRT outcome, also considering possible genotype interaction with antipsychotic (AP) treatment, since EAAT2 expression is negatively influenced by clozapine. We examined rs4354668 in 88 clinically stabilized patients with schizophrenia, treated with CRT and assessed at enrolment, at the end of CRT and after 3 months. We observed greater working memory improvements among patients carrying the T/T genotype, regardless of AP treatment. Moreover, we reported a significant interaction between pharmacological treatment and rs4354668 on executive functions, with greater improvements among T/T patients treated with APs other than clozapine. These observations suggest that impaired EAAT2 expression may attenuate CRT outcome. Moreover, our results indicate the possibility that rs4354668 could also differentially influence the response to CRT depending on the AP treatment.

Spangaro M ，Bosia M ，Bechi M ，Buonocore M ，Cocchi F ，Guglielmino C ，Bianchi L ，Mastromatteo A ，Lorenzi C ，Cavallaro R ... -  《-》

Cognitive and magnetic resonance imaging brain morphometric correlates of brain-derived neurotrophic factor Val66Met gene polymorphism in patients with schizophrenia and healthy volunteers.

Ho BC ，Milev P ，O'Leary DS ，Librant A ，Andreasen NC ，Wassink TH ... -  《-》

Genetic variability of glutamate reuptake: Effect on white matter integrity and working memory in schizophrenia.

Mazza E ，Spangaro M ，Poletti S ，Cavallaro R ，Benedetti F ... -  《-》