Exome sequencing in schizophrenic patients with high levels of homozygosity identifies novel and extremely rare mutations in the GABA/glutamatergic pathways

Giacopuzzi, Edoardo; Gennarelli, Massimo; Minelli, Alessandra; Gardella, Rita; Valsecchi, Paolo; Traversa, Michele; Bonvicini, Cristian; Vita, Antonio; Sacchetti, Emilio; Magri, Chiara

doi:10.1371/journal.pone.0182778

Cited by 17 publications

(23 citation statements)

References 33 publications

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“…Even if a significant role of rare recessive deleterious variants did not emerge in the SCZ 19 – 21 , an enrichment of long Runs of Homozygosity (ROHs) has been found in SCZ cases 22 , 23 , suggesting that large autozygosity regions due to inbreeding could play a role in the disease. These last results are in line with our previous study 24 pointing to the presence of rare SCZ risk variants, in a homozygous state, in subjects bearing long ROHs that are likely due to recent inbreeding.…”

Section: Introductionsupporting

confidence: 92%

“…Previously we identified a schizophrenic patient that was homozygous for a novel mutation in GAD1 gene ( GAD1 , c.391 A > G). Since this mutation was predicted damaging by bioinformatics tools and fall in a gene whose expression has been described altered in some SCZ patients, we hypothesized it could be a risk variant for SCZ with a recessive effect 24 . Direct sequencing in the two healthy sisters of that patient revealed that both sisters were heterozygotes for the c.391 A > G mutation (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Indeed, whole exome sequencing of SCZ patients with high levels of autozygosity, (that is with more than 22 Mb of their genome included in ROHs > 4 Mb, compared to a median value of 8.7 Mb) 24 , allowed us to identify some ultra-rare mutations in a homozygous state. These mutations, mapping in ROHs and affecting genes of the glutamatergic and GABAergic pathways, could be considered good candidate SCZ risk variants 24 . In particular, one of these variants, mapping at position chr2:171,687,546 (hg19 assembly) was a novel missense mutation (c.391 A > G) affecting the Glutamic Acid Decarboxylase I ( GAD1 ) (NM_000817) gene.…”

Section: Introductionmentioning

confidence: 99%

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A novel homozygous mutation in GAD1 gene described in a schizophrenic patient impairs activity and dimerization of GAD67 enzyme

Magri

Giacopuzzi

Via

et al. 2018

Sci Rep

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Recently, by whole exome sequencing of schizophrenia (SCZ) patients, we identified a subject that was homozygous for a novel missense substitution (c.391 A > G) in the glutamate acid decarboxylase 1 (GAD1) gene. GAD1 encodes for GAD67 enzyme, catalyzing the production of gamma-aminobutyric acid (GABA) from L-glutamic acid. Here, we studied the impact of this mutation on GAD67 activity, dimerization and subcellular localization. Biochemical assay revealed that c.391 A > G reduces GAD67 enzymatic activity by ~30%, probably due to the impaired homodimerization of homozygous mutants as highlighted by proximity ligation assays. The mutational screening of 120 genes of the “GABAergic system” in a cohort of 4,225 SCZ cases and 5,834 controls (dbGaP: phs000473.v1.p2), did not identify other cases that were homozygous for ultra-rare variants in GAD1, but highlighted an increased frequency of cases that were homozygous for rare variants in genes of the GABA system (SCZ: 0.14% vs. Controls: 0.00%; p-value = 0.0055). In conclusion, this study demonstrates the functional impact of c.391 A > G variant and its biological effect makes it a good candidate as risk variant for SCZ. This study also supports an involvement of ultra-rare variants in GABAergic genes in the etiopathogenesis of SCZ.

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Section: Introductionsupporting

confidence: 92%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A novel homozygous mutation in GAD1 gene described in a schizophrenic patient impairs activity and dimerization of GAD67 enzyme

Magri

Giacopuzzi

Via

et al. 2018

Sci Rep

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“…We designed synthetic probes for NGS, targeting genes associated with dementia, SCZ, and several pharmacogenetic targets. The selection of genes was based on a literature search for published works reporting an effect of common variations or rare variants in SCZ, dementia or drug response to different antipsychotics or antidementia drugs 6,7,[26][27][28][29][30][31][32][33][34][35][36] ; a list of the captured genes is reported in Supplementary Table 1. Gene capture was performed using the Haloplex target enrichment system (Agilent Technologies, USA) with 1.51Mb with 40754 amplicons.…”

Section: Targeted Ngsmentioning

confidence: 99%

Exploratory Analysis of Rare and Novel Variants in Mexican Patients Diagnosed with Schizophrenia and Dementia

Martínez‐Magaña

Genis‐Mendoza

González-Covarrubias

et al. 2019

RIC

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Background: Schizophrenia (SCZ) and dementia, often related, are two of the most common neuropsychiatric diseases; epidemiological studies have shown that SCZ patients present a 2-fold increased risk for dementia compared to non-schizophrenic individuals. We explored the presence of rare and novel damaging gene variants in patients diagnosed with late-onset dementia of Alzheimer's type (DAT) or SCZ. Methods: We included 7 DAT and 12 SCZ patients and performed high-depth targeted sequencing of 184 genes. Results: We found novel and rare damaging variants in 18 genes in these Mexican patients. Carriers of these variants showed extreme phenotypes, including, treatment-resistant SCZ or cognitive decline. Furthermore, we found a variation on ABCC1 as a possible link between psychosis and cognitive impairment. Discussion: As an exploratory analysis, we report some interesting variations that should be corroborated in larger sample size studies.

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“…Alternative splicing of GAD1 and the epigenetic state may play roles in brain development and the risk of schizophrenia [12]. Recent studies with whole exome sequencing of schizophrenic patients identified missense mutation mapping at the GAD1 gene, which caused a reduction in GAD67 enzymatic activity by ~30% due to impaired homodimerization [13,14]. Therefore, the functional impairment of GAD67 associated with genetic mutations is involved in the neurobiological mechanisms of several psychiatric disorders.…”

Section: Introductionmentioning

confidence: 99%

Global Knockdown of Glutamate Decarboxylase 67 Elicits Emotional and Auditory Abnormalities in Mice

Miyata¹,

Kakizaki²,

Fujihara³

et al. 2020

Preprint

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Reduced expression of glutamate decarboxylase 67 (GAD67), encoded by the Gad1 gene, is a consistent finding in postmortem brains of patients with several psychiatric disorders, including schizophrenia, bipolar disorder and major depressive disorder. The dysfunction of GAD67 in the brain is implicated in the pathophysiology of these psychiatric disorders; however, the neurobiological consequences of GAD67 dysfunction in mature brains are not fully understood because the homozygous Gad1 knockout is lethal in newborn mice. We hypothesized that the tetracycline-controlled gene expression/suppression system could be applied to develop global GAD67 knockdown mice that would survive into adulthood. In addition, GAD67 knockdown mice would provide new insights into the neurobiological impact of GAD67 dysfunction. Here, we developed Gad1 tTA/STOP-tetO biallelic knock-in mice using Gad1 STOP-tetO and Gad1 tTA knock-in mice, and compared them with Gad1 +/+ mice. The expression level of GAD67 protein in brains of Gad1 tTA/STOP-tetO mice treated with doxycycline (Dox) was decreased by approximately 90%. The GABA content was also decreased in the brains of Dox-treated Gad1 tTA/STOP-tetO mice. In the open-field test, Dox-treated Gad1 tTA/STOP-tetO mice exhibited hyper-locomotor activity and decreased duration spent in the center region. In addition, acoustic startle responses were impaired in Dox-treated Gad1 tTA/STOP-tetO mice. These results suggest that global reduction in GAD67 elicits emotional and auditory abnormalities in mice. These GAD67 knockdown mice will be useful for elucidating the neurobiological mechanisms of emotional abnormalities, such as anxiety symptoms associated with psychiatric disorders.

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Exome sequencing in schizophrenic patients with high levels of homozygosity identifies novel and extremely rare mutations in the GABA/glutamatergic pathways

Cited by 17 publications

References 33 publications

A novel homozygous mutation in GAD1 gene described in a schizophrenic patient impairs activity and dimerization of GAD67 enzyme

A novel homozygous mutation in GAD1 gene described in a schizophrenic patient impairs activity and dimerization of GAD67 enzyme

Exploratory Analysis of Rare and Novel Variants in Mexican Patients Diagnosed with Schizophrenia and Dementia

Global Knockdown of Glutamate Decarboxylase 67 Elicits Emotional and Auditory Abnormalities in Mice

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