Influenza A virus infection and NMDA receptor function : a behavioral and molecular study of relevance for schizophrenia
Schizophrenia is a neuropsychiatric disorder characterized by positive and negative symptoms, as well as cognitive dysfunctions. There is no single cause of schizophrenia, instead complex combinations of genetic and environmental factors may contribute to the disorder, including exposure to viral in...
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Zusammenfassung: | Schizophrenia is a neuropsychiatric disorder characterized by positive
and negative symptoms, as well as cognitive dysfunctions. There is no
single cause of schizophrenia, instead complex combinations of genetic
and environmental factors may contribute to the disorder, including
exposure to viral infections or other environmental insults during early
life. Discoveries during the last 30 years have provided increasing
evidence for a glutamatergic hypofunction in schizophrenia. This
hypothesis arose from the finding that non-competitive
N-methyl-d-aspartate (NMDA) receptor antagonists, such as ketamine and
phencyclidine (PCP) can reproduce schizophrenia-like symptoms including
cognitive dysfunctions in man. This observation, has led to a search for
schizophrenia-related animal models based on NMDA-receptor blockade.
The main aim of these studies was to investigate if exposure to influenza
A virus during early life can result in cognitive dysfunctions during
adult life. In addition, to allow studies on the potential role of NMDA
receptor systems for cognition, a novel NMDA receptor hypofunction model
was developed. Both acute and repeated treatment with NMDA receptor
antagonists is known to produce a dose-related spectrum of motor
dysfunctions that interfere with cognitive performance in rodents. For
this reason, PCP was examined in a dose-dependent study to establish the
dose-range of cognitive impairments versus motor side effects. Repeated
administration of the 0.5 mg/kg dose of PCP impaired spatial learning and
long-term memory without affecting non-spatial learning. The PCP-induced
impairments in learning and memory were prevented by concomitant
treatment with the atypical antipsychotic drug clozapine (0.5 mg/kg),
but not with the typical antipsychotic haloperidol (0.05 mg/kg).
To avoid testing with the drug on board , the effects of repeated
administration of PCP on cognitive and social behavior were examined 24 h
after the final dose of PCP. In addition, this study examined the effect
of such treatment on the expression of two genes involved in neuronal
plasticity and learning. Repeated doses of PCP (1 and 2 mg/kg) produced
long-term impairments in spatial learning and working memory performance
in the water maze task, without any apparent sensorimotor deficits.
Furthermore, mice treated with 2 mg/kg of PCP spent less time in active
social interaction, and showed increased non-social and aggressive
behaviors. These behavioral effects were associated wi |
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