Schizophrenia is associated with volume and neuronal changes in the mediodorsal nucleus and pulvinar, the major association nuclei of the thalamus, whereas total thalamic volume and the volumes of anterior and centromedian nuclei were not significantly altered.
Objective:The N-methyl-D-aspartic acid (NMDA) class of glutamate receptors has received attention in the pathophysiology of schizophrenia because of the similarity between some schizophrenic symptoms and symptoms caused by NMDA antagonists. To determine if NMDA receptor abnormalities were present at the mRNA level, expression of NMDA receptor (NR) subunits NR 1 , NR 2A , and NR 2B was measured in specimens from the dorsolateral prefrontal cortex and the occipital cortex of elderly patients with schizophrenia and normal elderly subjects.Method: Postmortem specimens from antemortem assessed and diagnosed elderly patients with schizophrenia (N=26) were compared with those from a neuropathologically and neuropsychiatrically normal elderly comparison group (N=13) and from patients with Alzheimer's disease (N=10). The mRNA expression of the NR 1 , NR 2A , and NR 2B subunits and of postsynaptic density 95 (PSD-95), a protein associated with postsynaptic NMDA receptors, was studied with quantitative real-time reverse transcriptase polymerase chain reaction.Results: Expression of NR 1 and NR 2A but not NR 2B subunits was higher in the dorsolateral prefrontal cortex and the occipital cortex of patients with schizophrenia than in the normal and Alzheimer's disease groups. In contrast, NR 1 expression was significantly lower in the Alzheimer's disease group. Occipital cortex expression of PSD-95 was higher in the schizophrenic subjects and correlated strongly with the expression of NR 2A and NR 2B in both cortical regions and with expression of NR 1 in the occipital cortex. These results were not influenced by neuroleptic exposure history, postmortem interval, or age of the subject.Conclusions: NMDA receptor subunits are abnormally expressed in elderly patients with schizophrenia. The disproportionate expression of the NR 1 and NR 2A subunits relative to NR 2B expression may have implications for the pathophysiology of schizophrenia and the sensitivity of schizophrenic patients to glutamate and glutamatergic drugs. Several neurochemical hypotheses have been proposed to explain the origin of schizophrenia, including abnormal dopamine, serotonin (5-HT), γ-aminobutyric acid (GABA), and/or glutamate neurotransmission in different regions of the brain (1-8). Abnormalities in the dorsolateral prefrontal cortex have figured prominently in many of these hypotheses, in part due to results of in vivo imaging and neuroanatomical studies (9-11), although there is evidence for structural, metabolic, and neurochemical abnormalities in many other brain regions, including the thalamus, the hippocampus, and the cingulate and entorhinal cortices (1,(12)(13)(14)(15)(16)(17)(18)(19).Strong evidence supporting an association between glutamatergic hypofunction and schizophrenia has come from pharmacological studies showing that N-methyl-Daspartic acid (NMDA) receptor antagonists such as phencyclidine and ketamine can induce many of the psychotic signs and symptoms of schizophrenia in normal subjects, as well as exacerbate these signs and symptom...
Gamma-Aminobutyric acid (GABA), the principal inhibitory neurotransmitter of CNS, has been consistently implicated in the pathophysiology of schizophrenia. GABA is synthesized from glutamate by the enzyme glutamic acid decarboxylase (GAD). Two isoforms of GAD have been identified and have been named GAD65 and GAD67 based on their apparent molecular weights. In this study, GAD65 and GAD67 mRNA and protein levels were measured by using real-time RT-PCR and immunoblotting, respectively, in post-mortem brain tissue from the dorsolateral prefrontal cortex (DLPFC) and the occipital cortex of the elderly persons with schizophrenia and matched normal controls. In addition, the mRNA expression of GAT-1, one of the principal transporters of GABA, was also studied in the same subjects. Expression of GAD65 and GAD67 mRNA in the DLPFC and in the occipital cortex was significantly elevated in patients with schizophrenia, whereas the expression of the corresponding proteins and GAT-1 mRNA was unchanged. Although the levels of GAD65 and GAD67 messages were increased in schizophrenia subjects, the proportion of the two GAD isoforms remained constant in controls and schizophrenics. In the human DLPFC, GAD65 mRNA was found to be expressed significantly less than the message for GAD67, approximately 16% of that observed for GAD67. On the contrary, the abundance of GAD65 protein in the DLPFC was about 350% of that observed for GAD67. The results suggest a substantial dysregulation of GAD mRNA expression in schizophrenia and, taken together with the results of protein expression studies, raise the possibility that both cortical and subcortical GABA function may be compromised in the disease.
Serotonin 2C receptor (5-HT 2C R) heterogeneity in the brain occurs mostly from two different sources: (i) 5-HT 2C R mRNA undergoes adenosine-to-inosine editing events at five positions, which leads to amino acid substitutions that produce receptor variants with different pharmacological properties; (ii) 5-HT 2C R mRNA is alternatively spliced, resulting in a truncated mRNA isoform (5-HT 2C R-tr) which encodes a non-functional serotonin receptor. 5-HT 2C R mRNA editing efficiencies and the expression of the full-length and the truncated 5-HT 2C R mRNA splice isoforms were analyzed in the prefrontal cortex of elderly subjects with schizophrenia vs. matched controls (ns ¼ 15). No significant differences were found, indicating that there are no alterations in editing or alternative splicing of 5-HT 2C Rs that are associated with schizophrenia in persons treated with antipsychotic medications. Quantitation of 5-HT 2C R and 5-HT 2C R-tr mRNA variants revealed that the expression of 5-HT 2C R-tr was 50% of that observed for the full-length isoform.
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