Effects of MK-801 treatment across several pre-clinical analyses including a novel assessment of brain metabolic function utilizing PET and CT fused imaging in live rats

Abstract

BackgroundFunctional imaging studies in schizophrenic patients have demonstrated metabolic brain abnormalities during cognitive tasks. This study aimed to 1) introduce a novel analysis of brain metabolic function in live animals to characterize the hypo- and hyperfrontality phenomena observed in schizophrenia and following NMDA antagonist exposure, and 2) identify a robust and representative MK-801 treatment regimen that effectively models brain metabolic abnormalities as well as a range of established behavioural abnormalities representative of schizophrenia. MethodsThe validity of the MK-801 animal model was examined across several established pre-clinical tests, and a novel assessment of brain metabolic function using PET/CT fused imaging. In the present study, MK-801 was administered acutely at 0.1 mg/kg and 0.5 mg/kg, and sub-chronically at 0.5 mg/kg daily for 7 days. ResultsAcute treatment at 0.5 mg/kg-disrupted facets of memory measured through performance in the 8-arm radial maze task and generated abnormalities in sensorimotor gating, social interaction and locomotor activity. Furthermore, this treatment regimen induced hyperfrontality (increased brain metabolic function in the prefrontal area) observed via PET/CT fused imaging in the live rat. LimitationsWhile PET and CT fused imaging in the live rat offers a functional representation of metabolic function, more advanced PET/CT integration is required to analyze more discrete brain regions. ConclusionThese findings provide insight on the effectiveness of the MK-801 pre-clinical model of schizophrenia and provide an optimal regimen to model schizophrenia. PET/CT fused imaging offers a highly translatable tool to assess hypo- and hyperfrontality in live animals.