Characterization of gene–environment interactions by behavioral profiling of selectively bred rats: The effect of NMDA receptor inhibition and social isolation

Characterization of gene–environment interactions by behavioral profiling of selectively bred rats: The effect of NMDA receptor inhibition and social isolation

► Characterization of selectively bred rats in terms of schizophrenia-related alterations. ► Complex treatment with social isolation and ketamine injections. ► Both pain sensitivity and motor activity decreased in treated animals. ► Sensory gating deficit and memory dysfunctions could also be observ...

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Published in:Behavioural brain research Vol. 240; pp. 134 - 145
Main Authors: Petrovszki, Zita, Adam, Gabor, Tuboly, Gabor, Kekesi, Gabriella, Benedek, Gyorgy, Keri, Szabolcs, Horvath, Gyongyi
Format: Journal Article
Language:English
Published: Shannon Elsevier B.V 01-03-2013
Elsevier
Subjects:
Acoustic Stimulation
Adult and adolescent clinical studies
Animals
Behavior, Animal - drug effects
Behavior, Animal - physiology
Behavioral psychophysiology
Biological and medical sciences
Breeding - methods
Disease Models, Animal
Fundamental and applied biological sciences. Psychology
Gene-Environment Interaction
Genetic Predisposition to Disease
Ketamine - pharmacology
Male
Medical sciences
Memory
Motor behavior
Pain
Pain Threshold - drug effects
Pain Threshold - physiology
Prepulse inhibition
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Psychopathology. Psychiatry
Psychoses
Rats
Receptors, N-Methyl-D-Aspartate - antagonists & inhibitors
Reflex, Startle - drug effects
Reflex, Startle - genetics
Schizophrenia
Schizophrenia - etiology
Schizophrenia - genetics
Selective breeding
Social Isolation
Schizophrenia
Motor behavior
Pain
Selective breeding
Memory
Prepulse inhibition
Rat
Rodentia
Glutamate receptor
Social inhibition
Psychosis
Characterization
Vertebrata
Mammalia
Genotype environment interaction
Social isolation
Animal
Body movement
Behavior
NMDA receptor
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Summary:► Characterization of selectively bred rats in terms of schizophrenia-related alterations. ► Complex treatment with social isolation and ketamine injections. ► Both pain sensitivity and motor activity decreased in treated animals. ► Sensory gating deficit and memory dysfunctions could also be observed. ► Selective breeding and complex treatment are important in producing these changes. Gene–environment interactions have an important role in the development of psychiatric disorders. To generate and validate a new substrain of rats with signs related to schizophrenia, we used selective breeding after postweaning social isolation and chronic ketamine treatment through several generations of animals and compared the subsequent strain to naive rats that were not genetically manipulated. We further investigated whether social isolation and ketamine treatment augmented the appearance of schizophrenic-like signs in these rats. Four experimental groups were studied (n=6–15 rats/group): naive rats without any treatment (NaNo); naive rats with postweaning social isolation and ketamine treatment (NaTr); 15th generation of selectively bred animals without any treatment (SelNo) or selectively bred rats with both isolation and ketamine treatment (SelTr). The startle reaction, tail-flick and novel object recognition tests were used to classify the animals into low- or high-risk for schizophrenia. Reduced pain sensitivity, higher degree of the startle reaction, disturbed prepulse inhibition, altered motor activity and decreased differentiation index in the memory test were observed in the 15th generation of the substrain, along with enhanced grooming behavior. Five functional indices (TF latency, startle reaction, prepulse inhibition, differentiation index, and grooming activity) were rated from 0 to 2, and the analysis of the summarized score revealed that the NaNo group had the lowest overall indication of schizophrenic-like signs, while the SelTr animals scored the highest, suggesting that both heritable and environmental factors were important in the generation of the behavioral alterations. We assume that further breeding after this complex treatment may lead to a valid and reliable animal model of schizophrenia.
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ISSN:0166-4328
1872-7549
DOI:10.1016/j.bbr.2012.11.022