Advantages and Limitations of Animal Schizophrenia Models.

Mental illness modeling is still a major challenge for scientists. Animal models of schizophrenia are essential to gain a better understanding of the disease etiopathology and mechanism of action of currently used antipsychotic drugs and help in the search for new and more effective therapies. We can distinguish among pharmacological, genetic, and neurodevelopmental models offering various neuroanatomical disorders and a different spectrum of symptoms of schizophrenia. Modeling schizophrenia is based on inducing damage or changes in the activity of relevant regions in the rodent brain (mainly the prefrontal cortex and hippocampus). Such artificially induced dysfunctions approximately correspond to the lesions found in patients with schizophrenia. However, notably, animal models of mental illness have numerous limitations and never fully reflect the disease state observed in humans.

Disrupted-in-schizophrenia 1 Protein Misassembly Impairs Cognitive Flexibility and Social Behaviors in a Transgenic Rat Model.

Alterations in cognitive functions, social behaviors and stress reactions are commonly diagnosed in chronic mental illnesses (CMI). Animal models expressing mutant genes associated to CMI represent either rare mutations or those contributing only minimally to genetic risk. Non-genetic causes of CMI can be modeled by disturbing downstream signaling pathways, for example by inducing protein misassembly or aggregation. The Disrupted-in-Schizophrenia 1 (DISC1) gene was identified to be disrupted and thereby haploinsufficient in a large pedigree where it was associated with CMI. In a subset of CMI patients, the DISC1 protein misassembles to an insoluble protein. This has been modeled in a rat (tgDISC1 rat) where the full-length, non mutant human transgene was overexpressed and cognitive impairments were observed. Here, we investigated the scope of effects of DISC1 protein misassembly by investigating spatial memory, social behavior and stress resilience. In water maze tasks, the tgDISC1 rats showed intact spatial learning and memory, but were deficient in flexible adaptation to spatial reversal learning compared to littermate controls. They also displayed less social interaction. Additionally, there was a trend towards increased corticosterone levels after restraint stress in the tgDISC1 rats. Our findings suggest that DISC1 protein misassembly leads to disturbances of cognitive flexibility and social behaviors, and might also be involved in stress sensitization. Since the observed behavioral features resemble symptoms of CMI, the tgDISC1 rat may be a valuable model for the investigation of cognitive, social and - possibly - also stress-related symptoms of major mental illnesses.

Disc1 gene down-regulation impaired synaptic plasticity and recognition memory via disrupting neural activity in mice.

The gene of Disrupted-in-schizophrenia 1 (Disc1) is closely related to mental diseases with cognitive deficits, but there are few studies on the changes in neural oscillations and recognition memory. Neural oscillations plays a key role in the nervous system in a dynamic form, which is closely related to advanced cognitive activities such as information processing and memory consolidation. Hence, we aimed to investigate if Disc1 knockdown disrupted the normal pattern of neural activities in the mouse hippocampus network, and determined if quantitative neural oscillation approach could be a potential diagnostic tool for mental disorders. In the study, we reported that Disc1 gene, downregulated by short-hairpin RNA (shRNA), not only induced anxiety-like behavior and sociability impairment but also damaged both synaptic plasticity and recognition memory in mice. Moreover, Disc1 knockdown mice exhibited evidently abnormal power spectral distributions, reduced phase synchronizations, and decreased phase-amplitude coupling strength compared to that of normal animals. In addition, transcriptome analyses showed that there were clearly transcriptional changes in Disc1 knockdown mice. Altogether, our findings suggest that the abnormal pattern of neural activities in the hippocampus network disrupts information processing and finally leads to the impairments of synaptic plasticity and recognition in Disc1 knockdown mice, which are possibly associated with the obstruction of neurotransmitter transmission. Importantly, the data imply that the analysis of neural oscillation pattern provides a potential diagnosis approach for mental disorders.

Polymorphism of rs3737597 in DISC1 Gene on Chromosome 1q42.2 in sALS Patients: a Chinese Han Population Case-Control Study.

Although lots of genes have been revealed to relate to sporadic amyotrophic lateral sclerosis (sALS), its genetic mechanisms still need to be further explored. We aimed to search the novel genetic factors of sALS and assess their contribution. We constructed an integrative dataset based on the 3227 subsignificant genes (P value < 0.01) from two sALS-related genome-wide association studies (GWAS) (the US and Irish studies). A significant replication between both studies was confirmed by the gene set enrichment analysis in the integral level (P value < 10-4). Using the pathway overrepresentation analysis, we revealed the 34 shared Gene Ontology (GO) biological processes from the two independent studies (P value < 0.01). Among these pathways, the nervous system developmental pathway (NSD function, GO:0007399) was further supported by the previously reported genes related to sALS (P value = 3.28e-12). Importantly, four of 17 NSD-function-related target genes (disrupted-in-schizophrenia-1 (DISC1), CNTN4, NRXN3, and ERBB4) presented a considerable association with sALS in both studies. To further verify the association between the NSD function target genes and sALS, we preformed a two-stage case-control study based on 500 sALS patients and 500 controls of Chinese Han populations from mainland. A polymorphism of rs3737597 in DISC1 gene involved in the nervous system developmental pathway was closely associated with sALS. The nervous system developmental pathway is a potential pathogenesis of sALS, among them, the polymorphism of rs3737597 in DISC1 might play some roles.

Association analysis of DISC1 gene polymorphisms with Attention-Deficit Hyperactivity Disorder in Iranian population.

BACKGROUND & OBJECTIVES: Attention deficit hyperactivity disorder (ADHD) is a common heritable psychiatric disorder with a worldwide prevalence of 5%. The etiology of ADHD is still incompletely understood, but several studies, consistently indicate the strong role of genetic factors on this disorder. The aim of this study was to determine the effect of three SNPs rs11122319, rs11122330 and rs6675281 in the etiology of ADHD in an Iranian children. METHODS: In this research work, for the first time, we investigated the association of three SNPs (rs11122330, rs6675281 and rs11122319) in the DISC1 gene with ADHD in Iranian population. Two hundred fourthy subjects composed of 120 patients and 120 healthy controls were included and tetra-primer ARMS PCR technique was used for genotyping all selected SNPs. RESULTS: We found differences in genotype and allele distributions of rs 6675281 polymorphism between our patients and controls. The A, T and A alleles were the more frequent alleles in rs11122319, rs6675281 and rs11122330 polymorphisms in both case and control groups respectively. The TT genotype was more frequent in control group compared to patients. (P value = 0.008, OR= 1.5837, 95% CI= 1.1012 to 2.2776). CONCLUSION: Our findings strengthens the role of DISC1 gene as a susceptibility locus for ADHD and indicate that rs6675281 polymorphism is a susceptibility factor for ADHD for the first time in children reported in an Iranian population in this part of the world.

Association of schizophrenia with the rs821633 polymorphism in the DISC1 gene among Han Chinese.

BACKGROUND: Previous studies report that various single nucleotide polymorphisms (SNP) in the Disrupted-in Schizophrenia 1 (DISC1) gene are closely associated with schizophrenia, but there are no studies that assess the relationship of age of onset of schizophrenia with these SNPs. OBJECTIVE: Investigate the relationship between the rs821633 SNP in the DISC1 gene and the occurrence and age of onset of schizophrenia in Han Chinese. METHODS: We used the TaqMan genotyping technology to examine the rs821633 SNP in the DISC1 gene among 315 individuals who developed schizophrenia prior to 19 years of age ('early-onset'), 407 individuals who developed schizophrenia when 19 years of age or older ('late-onset'), and 482 healthy controls. We used survival analyses to investigate the relationship between the rs821633(C) risk allele and the age of onset of schizophrenia. RESULTS: Compared to the prevalence in healthy controls, the prevalence of the C/C genotype of rs821633 and of the C allele in rs821633 were significantly greater in individuals with early-onset schizophrenia (X (2)=7.17, df=1, p=0.007; X (2)=7.20, df=2, p=0.032) and significantly greater in individuals with late-onset schizophrenia (X (2)=5.36, df=1, p=0.022; X (2)=6.58, df=2, p=0.041). However, there were no significant differences in the prevalence of the C/C genotype or the C allele between individuals with early-onset and late-onset schizophrenia. Kaplan-Meier survival analyses found no significant association between the rs821633(C) risk allele and age of onset in schizophrenia. CONCLUSION: We confirm the association of polymorphism in the rs821633 SNP in the DISC1 gene with schizophrenia among Han Chinese, but we found no association between the rs821633(C) risk allele and the age of onset in individuals with schizophrenia.

DISC1 gene and affective psychopathology: a combined structural and functional MRI study.

The gene Disrupted-In-Schizophrenia-1 (DISC1) has been indicated as a determinant of psychopathology, including affective disorders, and shown to influence prefrontal cortex (PFC) and hippocampus functioning, regions of major interest for affective disorders. We aimed to investigate whether DISC1 differentially modulates brain function during executive and memory processing, and morphology in regions relevant for depression and anxiety disorders (affective disorders). 128 participants, with (n = 103) and without (controls; n = 25) affective disorders underwent genotyping for Ser704Cys (with Cys-allele considered as risk-allele) and structural and functional (f) Magnetic Resonance Imaging (MRI) during visuospatial planning and emotional episodic memory tasks. For both voxel-based morphometry and fMRI analyses, we investigated the effect of genotype in controls and explored genotypeXdiagnosis interactions. Results are reported at p < 0.05 FWE small volume corrected. In controls, Cys-carriers showed smaller bilateral (para)hippocampal volumes compared with Ser-homozygotes, and lower activation in the anterior cingulate cortex (ACC) and dorsolateral PFC during visuospatial planning. In anxiety patients, Cys-carriers showed larger (para)hippocampal volumes and more ACC activation during visuospatial planning. In depressive patients, no effect of genotype was observed and overall, no effect of genotype on episodic memory processing was detected. We demonstrated that Ser704Cys-genotype influences (para)hippocampal structure and functioning the dorsal PFC during executive planning, most prominently in unaffected controls. Results suggest that presence of psychopathology moderates Ser704Cys effects.

Association study between disrupted in schizophrenia 1(DISC1)gene polymorphism and schizophrenic and different subtype depressive patients / 中华行为医学与脑科学杂志

Objective To explore the association between disrupted in schizophrenia 1(DISC1) genepolymorphism and schizophrenia and different subtype depression.To verify if DISC1 gene is the common predisposing gene for schizophrenia and depression.Methods The genotypes and alleles in 260 cases of schizophrenicpatients,96 cases of depressive patients with psychotic symptoms,124 cases of depressive patients without psychotic symptoms,and 100 normal controls were examined with polymerase chain reaction(PCR),denaturing polyacrylamide gel elcctmphoresis separation technique.The association was analyzed between DISC1 gene single nncleotide polymorphisms(SNP) locus rs821616 and schizophrenia and different subtype depression.Results The frequeneies of the genotypes T/T,A/T,and A/A were 3.5%,28.0%and 69.5%respectively,the frequencies of alleles T and A were 9.6%and 90.4% respectively in schizophrenia group.The frequencies of the genotypes T/T,A/T,and A/A were 3.1%,24.0% and 72.9% respectively,the frequencies of alleles T and A were 15.6% and84.4% respectively in depression 1 group;The frequencies of the genotypes T/T,A/T,and A/A were 2.4%,23.4% and 74.2% respectively,the frequencies of alleles T and A were 15.3% and 84.7% respectively in depression 2 group;The frequencies ofthe genotypes T/T,A/T,and A/A were 1.0%,16.0% and 83.0% respectively,the frequencies of alleles T and A were 17.0% and 83.0% respectively in control group.There were significant differences in the frequencies of the genotypes (Chi-Square=8.072,P=0.045)and alleles(Chi-Square=8.564,P=0.036) of DISC1 gene among the four groups with non-parametric Kruskal-Wallis test.After pairwisecomparison each other in the four groups we found that there were significant differences in the frequencies of thegenotypes(Z=-2.802,P=0.005)and alleles(Z=-2.837,P=0.005) of DISC1 gene between patients withschizophrenia and normal controls with non-parametric Mann-Whitney test(two-tailed),there were no significantdifferences between other groups(P>0.05).Conclusion Our results suggest that DISC1 gene polymorphism is associated with schizophrenia significantly,but it is not associated with different subtype depression.This finding do not support the viewpoint that DISC1 gene is the common predisposing gene for schizophrenia and depression.