Marta Morgade Salgado scite author profile

Autism is a severe neurodevelopmental disorder, the aetiology of which remains mainly unknown. Family and twin studies provide strong evidence that genetic factors have a major role in the aetiology of this disease. Recently, whole exome sequencing (WES) efforts have focused mainly on rare de novo variants in singleton families. Although these studies have provided pioneering insights, de novo variants probably explain only a small proportion of the autism risk variance. In this study, we performed exome sequencing of 10 autism multiplex families with the aim of investigating the role of rare variants that are coinherited in the affected sibs. The pool of variants selected in our study is enriched with genes involved in neuronal functions or previously reported in psychiatric disorders, as shown by Gene Ontology analysis and by browsing the Neurocarta database. Our data suggest that rare truncating heterozygous variants have a predominant role in the aetiology of autism. Using a multiple linear regression model, we found that the burden of truncating mutations correlates with a lower non-verbal intelligence quotient (NVIQ). Also, the number of truncating mutations that were transmitted to the affected sibs was significantly higher (twofold) than those not transmitted. Protein-protein interaction analysis performed with our list of mutated genes revealed that the postsynaptic YWHAZ is the most interconnected node of the network. Among the genes found disrupted in our study, there is evidence suggesting that YWHAZ and also the X-linked DRP2 may be considered as novel autism candidate genes.

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Neurotransmitter systems and neurotrophic factors in autism: association study of 37 genes suggests involvement of DDC

Toma¹,

Hervás²,

Balmaña³

et al. 2012

The World Journal of Biological Psychiatry

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Analysis of two language-related genes in autism

Toma

Hervás

Torrico

et al. 2013

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Impairment of language abilities is a common feature in autistic individuals. Heterozygous mutations in the Forkhead Box P2 (FOXP2) gene lead to a severe spoken language disorder. Recently, several studies have pinpointed the involvement of common variants of the Contactin-Associated Protein-Like 2 (CNTNAP2) gene, whose transcription is regulated by the product of FOXP2, in several disorders characterized by language impairments such as autism, specific language impairment (SLI), and selective mutism (SM). In the present study, common variants of the FOXP2 and the CNTNAP2 genes were analyzed through a case-control association study in 322 Spanish autistic patients and 524 controls. The results of this study suggest that common variants of FOXP2 are unlikely to contribute to autism susceptibility, in agreement with previous findings. Furthermore, we failed to replicate in our sample a previous association finding of two single nucleotide polymorphisms (rs2710102 and rs7794745) in the CNTNAP2 gene with autism. No evidence for the association of these genes with language traits was observed in our analysis.

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Common and rare variants of microRNA genes in autism spectrum disorders

Toma

Torrico

Hervás³

et al. 2015

The World Journal of Biological Psychiatry

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Contribution of common and rare variants of the PTCHD1 gene to autism spectrum disorders and intellectual disability

et al. 2015

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Recent findings revealed rare copy number variants and missense changes in the X-linked gene PTCHD1 in autism spectrum disorder (ASD) and intellectual disability (ID). Here, we aim to explore the contribution of common PTCHD1 variants in ASD and gain additional evidence for the role of rare variants of this gene in ASD and ID. A two-stage case-control association study investigated 28 tag single nucleotide polymorphisms (SNPs) in 994 ASD cases and 1035 controls from four European populations. Mutation screening was performed in 673 individuals who included 240 ASD cases, 183 ID patients and 250 controls. The case-control association study showed a significant association with rs7052177 (P = 6.13E-4) in the ASD discovery sample that was replicated in an independent sample (P = 0.03). A Mantel-Haenszel meta-analysis for rs7052177T considering the four European populations showed an odds ratio of 0.58 (P = 7E-05). This SNP is predicted to be located in a transcription factor binding site. No rare missense PTCHD1 variants were found in our ASD cohort and only one was identified in the ID sample. A duplication (27 bp) in the promoter region, absent from 590 controls, was found in three ASD patients (Fisher exact test, P = 0.024). A gene reporter assay showed a significant decrease in the transcriptional activity (26%) driven by this variant. Moreover, we found that the longest allele of a trinucleotide repeat located upstream from PTCHD1 was associated with ASD (P = 0.003, permP = 0.0186). Our results further support the involvement of PTCHD1 in ASD, suggesting that both common and rare variants contribute to the disorder. INTRODUCTIONAutism spectrum disorder (ASD) is a severe neurodevelopmental disorder characterized by impairments in reciprocal social interaction, verbal and non-verbal communication and stereotyped patterns of behavior. The prevalence for ASD is estimated to be about 0.5-1%, and it is approximately four times more frequent in males than in females. [1][2][3] Family and twin studies in recent decades have provided strong evidence showing that ASD is one of the most heritable neuropsychiatric disorders. Sibling recurrence risk is approximately 20%, and concordance among twins may range from 76 to 88% for monozygotic twins and from 0 to 31% for dizygotic twins, depending on phenotypic criteria. 4,5 The genetic model for idiopathic autism is complex. Recent studies suggest that at least 1000 genes contribute to the disorder, with a combination of common variants of small to moderate effect and rare variants with potential larger effect sizes. 6,7

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