Missense mutation of the reticulon-4 receptor alters spatial memory and social interaction in mice.

The reticulon-4 receptor, encoded by RTN4R, limits axonal sprouting and neural plasticity by inhibiting the outgrowth of neurites. Human association studies have implicated mutations in RTN4R in the development of schizophrenia, including the identification of several rare nonconservative missense mutations of RTN4R in schizophrenia patients. To investigate the effects of missense mutation of the reticulon-4 receptor on phenotypes relevant to schizophrenia, we behaviourally characterized a novel Rtn4r mutant mouse line with an amino acid substitution (R189H) in the Nogo-66 binding site.

Contribution of nonprimate animal models in understanding the etiology of schizophrenia.

Schizophrenia is a severe psychiatric disorder that is characterized by positive and negative symptoms and cognitive impairments. The etiology of the disorder is complex, and it is thought to follow a multifactorial threshold model of inheritance with genetic and neurodevelop mental contributions to risk. Human studies are particularly useful in capturing the richness of the phenotype, but they are often limited to the use of correlational approaches.

Injections of NGF into neonatal frontal cortex decrease social interaction as adults: a rat model of schizophrenia.

Background: Injection of nerve growth factor (NGF) into the developing frontal cortex (FC) has been shown to produce adult-onset subcortical dopaminergic hyperactivity, impaired prepulse inhibition of the acoustic startle response, and several neuropathological features of schizophrenia. The present study was to determine whether such lesions would lead to impaired social interaction, a prominent negative feature of schizophrenia.

Methods: Rat pups received daily injections of human recombinant NGF into the developing FC on postnatal days 1 and 2 to partially lesion subplate neurons.

Effects of the rd1 mutation and host strain on hippocampal learning in mice.

Many of the inbred mouse strains commonly used in biomedical research are homozygous for the rd1 mutation of the Pde6b gene, which causes retinal degeneration. To dissociate the behavioural effects of rd1 homozygosity from those of the genetic background of the host strain in the most widely used paradigms for evaluating the cognitive abilities of mice, two rd1 homozygous strains (C3H/HeJ and CBA/J) were compared with two Pde6b wild-type strains, each possessing a genetic background identical (C3A.BLiA-Pde6b+/J) or very similar (CBA/CaJ) to that of its rd1 homozygous relative.

NIH Swiss and Black Swiss mice have retinal degeneration and performance deficits in cognitive tests.

Swiss mice are among the most commonly used outbred strains in biomedical research. Because prior knowledge of the baseline phenotypes of mouse strains will allow informed selection of strains for particular experiments, we sought to characterize the behavior of two previously untested outbred Swiss strains--NIH Swiss and Black Swiss--in the two most widely used paradigms for evaluating the cognitive abilities of mice. Unlike the C57BL/6J and C57BL/6J-Tyr(c-2J) controls, animals of both outbred Swiss strains were unable to demonstrate learning in the Morris water maze and contextual fear conditioning paradigms.