1 Brain Res. 2007 Oct 1174: 7-17
PMID 17850769
Title The expression of Troponin T1 gene is induced by ketamine in adult mouse brain.
Abstract The glutamatergic system has been implicated in neuropsychiatric disorders, such asschizophrenia、双相情感障碍和老年痴呆症disease, which also have a high prevalence of metabolic syndrome. Treatment with ketamine, a non-competitive glutamate N-methyl-d-aspartic acid (NMDA) receptor antagonist, is known to have paradoxical effects of neuroprotection and neurotoxicity. We investigated gene expression in brain tissue of adult mice treated with ketamine to characterize the expression profiles and to identify the affected metabolic pathways. Adult male mice were treated by a single intraperitoneal (i.p.) injection of either s(+)ketamine (80 mg/kg) or distilled water (as the control). Fifty genes were differentially expressed in ketamine-treated mouse brains compared with control mice using oligonucleotide microarray analysis, and the expression of Troponin T1 (Tnnt1) gene was consistently elevated (2- to 4-fold) (p<0.001). Ketamine-induced Tnnt1 expression was confirmed and characterized using RNA in situ hybridization techniques in paraffin embedded brain tissue sections. Tnnt1 expression was induced in the granule layer of the hippocampus, amygdala, hypothalamus, Purkinje cells of cerebellum (p<0.0001), and cerebral cortex. Tnnt1 gene is known to interact directly withFOXO1, which is involved in multiple peripheral metabolic pathways and central energy homeostasis. Our findings suggest that the induction of Tnnt1 gene expression in adult mouse brains by ketamine may illustrate the genes involved in the metabolic syndromes observed in neuropsychiatric disorders.
SCZ Keywords schizophrenia
2 Neuroreport 2013 Jul 24: 560-5
PMID 23652158
Title Lithium normalizes amphetamine-induced changes in striatal FoxO1 phosphorylation and behaviors in rats.
Abstract Administration of the psychostimulant drug amphetamine (AMPH) to animals causes hyperactivity and deficit in prepulse inhibition (PPI) of startle, behaviors that are often observed in neuropsychiatric disorders such asschizophreniaand bipolar disorder. Enhanced central dopamine (DA) transmission is believed to mediate AMPH-induced behavioral alterations. Lithium, a drug used primarily in the treatment of bipolar disorder, is reported to interact with the DA system and antagonize some DA-related behaviors. Here, we provide evidence that AMPH and lithium reciprocally regulate the activity of the transcription factor forkhead box, class O1 (FOXO1), a downstream target of Akt. Administration of d-AMPH (3 mg/kg, intraperitoneally) to Sprague-Dawley rats resulted in a concomitant decrease in levels of phosphorylated (p) Akt as well as p-FOXO1in the striatum, whereas lithium chloride (LiCl,100 mg/kg, intraperitoneally) exerted the opposite effect, that is, it increased levels of p-Akt and p-FOXO1. Pretreatment of animals with lithium prevented an AMPH-induced decrease in striatal p-Akt and p-FOXO1levels. Pretreatment of animals with lithium also attenuated AMPH-induced locomotor activity and decreased prepulse inhibition. These in-vivo data suggest that the Akt-FOXO1pathway may be a common target for the action of dopaminergic and antidopaminergic drugs, and its modulation may be relevant to the treatment of neuropsychiatric disorders.
SCZ Keywords schizophrenia
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