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2. Exploring the Contribution to ADHD of Genes Involved in Mendelian Disorders Presenting with Hyperactivity and/or Inattention

Author

Fernandez N, Cabana J, Kappel DB, Torrico B, Weber H, Lesch KP, Lao O, Reif A, and Cormand B

Subjects
genetic variants, rare mendelian disorders, ADHD
Abstract

Attention-deficit hyperactivity disorder (ADHD) is a complex neurodevelopmental disorder characterized by hyperactivity, impulsivity, and/or inattention, which are symptoms also observed in many rare genetic disorders. We searched for genes involved in Mendelian disorders presenting with ADHD symptoms in the Online Mendelian Inheritance in Man (OMIM) database, to curate a list of new candidate risk genes for ADHD. We explored the enrichment of functions and pathways in this gene list, and tested whether rare or common variants in these genes are associated with ADHD or with its comorbidities. We identified 139 genes, causal for 137 rare disorders, mainly related to neurodevelopmental and brain function. Most of these Mendelian disorders also present with other psychiatric traits that are often comorbid with ADHD. Using whole exome sequencing (WES) data from 668 ADHD cases, we found rare variants associated with the dimension of the severity of inattention symptoms in three genes: KIF11, WAC, and CRBN. Then, we focused on common variants and identified six genes associated with ADHD (in 19,099 cases and 34,194 controls): MANBA, UQCC2, HIVEP2, FOPX1, KANSL1, and AUH. Furthermore, HIVEP2, FOXP1, and KANSL1 were nominally associated with autism spectrum disorder (ASD) (18,382 cases and 27,969 controls), as well as HIVEP2 with anxiety (7016 cases and 14,475 controls), and FOXP1 with aggression (18,988 individuals), which is in line with the symptomatology of the rare disorders they are responsible for. In conclusion, inspecting Mendelian disorders and the genes responsible for them constitutes a valuable approach for identifying new risk genes and the mechanisms of complex disorders.

Published
2022

3. Comprehensive exploration of the genetic contribution of the dopaminergic and serotonergic pathways to psychiatric disorders

Author

Cabana J, Torrico B, Reif A, Fernandez N, and Cormand B

Abstract

Psychiatric disorders are highly prevalent and display considerable clinical and genetic overlap. Dopaminergic and serotonergic neurotransmission have been shown to play an important role in many psychiatric disorders. Here we aim to assess the genetic contribution of these systems to eight psychiatric disorders (attention-deficit hyperactivity disorder (ADHD), anorexia nervosa (ANO), autism spectrum disorder (ASD), bipolar disorder (BIP), major depression (MD), obsessive-compulsive disorder (OCD), schizophrenia (SCZ) and Tourette's syndrome (TS)) using publicly available GWAS analyses performed by the Psychiatric Genomics Consortium that include more than 160,000 cases and 275,000 controls. To do so, we elaborated four different gene sets: two 'wide' selections for dopamine (DA) and for serotonin (SERT) using the Gene Ontology and KEGG pathways tools, and two'core' selections for the same systems, manually curated. At the gene level, we found 67 genes from the DA and/or SERT gene sets significantly associated with one of the studied disorders, and 12 of them were associated with two different disorders. Gene-set analysis revealed significant associations for ADHD and ASD with the wide DA gene set, for BIP with the wide SERT gene set, and for MD with the core SERT set. Interestingly, interrogation of a cross-disorder GWAS meta-analysis of the eight psychiatric conditions displayed association with the wide DA gene set. To our knowledge, this is the first systematic examination of genes encoding proteins essential to the function of these two neurotransmitter systems in these disorders. Our results support a pleiotropic contribution of the dopaminergic and serotonergic systems in several psychiatric conditions.

Published
2022

5. Involvement of the 14-3-3 gene family in autism spectrum disorder and schizophrenia: Genetics, transcriptomics and functional analyses

Author

Torrico, B, Antón-Galindo, E, Fernàndez-Castillo, N, Rojo-Francàs, E, Ghorbani, S, Pineda-Cirera, L, Hervás, A, Rueda, I, Moreno, E, Fullerton, JM, Casadó, V, Buitelaar, JK, Rommelse, N, Franke, B, Reif, A, Chiocchetti, AG, Freitag, C, Kleppe, R, Haavik, J, Toma, C, Cormand, B, Torrico, B, Antón-Galindo, E, Fernàndez-Castillo, N, Rojo-Francàs, E, Ghorbani, S, Pineda-Cirera, L, Hervás, A, Rueda, I, Moreno, E, Fullerton, JM, Casadó, V, Buitelaar, JK, Rommelse, N, Franke, B, Reif, A, Chiocchetti, AG, Freitag, C, Kleppe, R, Haavik, J, Toma, C, and Cormand, B

Abstract

The 14-3-3 protein family are molecular chaperones involved in several biological functions and neurological diseases. We previously pinpointed YWHAZ (encoding 14-3-3ζ) as a candidate gene for autism spectrum disorder (ASD) through a whole-exome sequencing study, which identified a frameshift variant within the gene (c.659-660insT, p.L220Ffs*18). Here, we explored the contribution of the seven human 14-3-3 family members in ASD and other psychiatric disorders by investigating the: (i) functional impact of the 14-3-3ζ mutation p.L220Ffs*18 by assessing solubility, target binding and dimerization; (ii) contribution of common risk variants in 14-3-3 genes to ASD and additional psychiatric disorders; (iii) burden of rare variants in ASD and schizophrenia; and iv) 14-3-3 gene expression using ASD and schizophrenia transcriptomic data. We found that the mutant 14-3-3ζ protein had decreased solubility and lost its ability to form heterodimers and bind to its target tyrosine hydroxylase. Gene-based analyses using publicly available datasets revealed that common variants in YWHAE contribute to schizophrenia (p = 6.6 × 10−7 ), whereas ultra-rare variants were found enriched in ASD across the 14-3-3 genes (p = 0.017) and in schizophrenia for YWHAZ (meta-p = 0.017). Furthermore, expression of 14-3-3 genes was altered in post-mortem brains of ASD and schizophrenia patients. Our study supports a role for the 14-3-3 family in ASD and schizophrenia.

Published
2020

6. Involvement of the 14-3-3 gene family in autism spectrum disorder and schizophrenia: Genetics, transcriptomics and functional analyses

Author

Torrico, B., Antón-Galindo, E., Fernàndez-Castillo, N., Rojo-Francàs, E., Ghorbani, S., Pineda-Cirera, L., Hervás, A., Rueda, I., Moreno, E., Fullerton, J.M., Casadó, V., Buitelaar, J.K., Rommelse, N.N.J., Franke, B., Reif, A., Chiocchetti, A.G., Freitag, C., Kleppe, R., Haavik, J., Toma, C., Cormand, B., Torrico, B., Antón-Galindo, E., Fernàndez-Castillo, N., Rojo-Francàs, E., Ghorbani, S., Pineda-Cirera, L., Hervás, A., Rueda, I., Moreno, E., Fullerton, J.M., Casadó, V., Buitelaar, J.K., Rommelse, N.N.J., Franke, B., Reif, A., Chiocchetti, A.G., Freitag, C., Kleppe, R., Haavik, J., Toma, C., and Cormand, B.

Abstract

Contains fulltext : 220445.pdf (publisher's version ) (Open Access), The 14-3-3 protein family are molecular chaperones involved in several biological functions and neurological diseases. We previously pinpointed YWHAZ (encoding 14-3-3ζ) as a candidate gene for autism spectrum disorder (ASD) through a whole-exome sequencing study, which identified a frameshift variant within the gene (c.659-660insT, p.L220Ffs*18). Here, we explored the contribution of the seven human 14-3-3 family members in ASD and other psychiatric disorders by investigating the: (i) functional impact of the 14-3-3ζ mutation p.L220Ffs*18 by assessing solubility, target binding and dimerization; (ii) contribution of common risk variants in 14-3-3 genes to ASD and additional psychiatric disorders; (iii) burden of rare variants in ASD and schizophrenia; and iv) 14-3-3 gene expression using ASD and schizophrenia transcriptomic data. We found that the mutant 14-3-3ζ protein had decreased solubility and lost its ability to form heterodimers and bind to its target tyrosine hydroxylase. Gene-based analyses using publicly available datasets revealed that common variants in YWHAE contribute to schizophrenia (p = 6.6 × 10(-7)), whereas ultra-rare variants were found enriched in ASD across the 14-3-3 genes (p = 0.017) and in schizophrenia for YWHAZ (meta-p = 0.017). Furthermore, expression of 14-3-3 genes was altered in post-mortem brains of ASD and schizophrenia patients. Our study supports a role for the 14-3-3 family in ASD and schizophrenia.

Published
2020

7. Cross-disorder genetic analyses implicate dopaminergic signaling as a biological link between Attention-Deficit/Hyperactivity Disorder and obesity measures

Author

Mota, N., Poelmans, G.J.V., Klein, M., Torrico, B., Fernàndez-Castillo, N., Cormand, B., Reif, A., Franke, B., Arias Vasquez, A., Mota, N., Poelmans, G.J.V., Klein, M., Torrico, B., Fernàndez-Castillo, N., Cormand, B., Reif, A., Franke, B., and Arias Vasquez, A.

Abstract

Contains fulltext : 220422.pdf (Publisher’s version ) (Open Access), Attention-Deficit/Hyperactivity Disorder (ADHD) and obesity are frequently comorbid, genetically correlated, and share brain substrates. The biological mechanisms driving this association are unclear, but candidate systems, like dopaminergic neurotransmission and circadian rhythm, have been suggested. Our aim was to identify the biological mechanisms underpinning the genetic link between ADHD and obesity measures and investigate associations of overlapping genes with brain volumes. We tested the association of dopaminergic and circadian rhythm gene sets with ADHD, body mass index (BMI), and obesity (using GWAS data of N = 53,293, N = 681,275, and N = 98,697, respectively). We then conducted genome-wide ADHD-BMI and ADHD-obesity gene-based meta-analyses, followed by pathway enrichment analyses. Finally, we tested the association of ADHD-BMI overlapping genes with brain volumes (primary GWAS data N = 10,720-10,928; replication data N = 9428). The dopaminergic gene set was associated with both ADHD (P = 5.81 × 10(-3)) and BMI (P = 1.63 × 10(-5)); the circadian rhythm was associated with BMI (P = 1.28 × 10(-3)). The genome-wide approach also implicated the dopaminergic system, as the Dopamine-DARPP32 Feedback in cAMP Signaling pathway was enriched in both ADHD-BMI and ADHD-obesity results. The ADHD-BMI overlapping genes were associated with putamen volume (P = 7.7 × 10(-3); replication data P = 3.9 × 10(-2))-a brain region with volumetric reductions in ADHD and BMI and linked to inhibitory control. Our findings suggest that dopaminergic neurotransmission, partially through DARPP-32-dependent signaling and involving the putamen, is a key player underlying the genetic overlap between ADHD and obesity measures. Uncovering shared etiological factors underlying the frequently observed ADHD-obesity comorbidity may have important implications in terms of prevention and/or efficient treatment of these conditions.

Published
2020

8. Lack of replication of previous autism spectrum disorder GWAS hits in European populations

Author

Torrico, B., Chiocchetti, A.G., Bacchelli, E., Trabetti, E., Hervas, A., Franke, B., Buitelaar, J.K., Rommelse, N.N.J., Yousaf, A., Duketis, E., Freitag, C.M., Caballero-Andaluz, R., Martinez-Mir, A., Scholl, F.G., Ribases, M., Battaglia, A., Malerba, G., Delorme, R., Benabou, M., Maestrini, E., Bourgeron, T., Cormand, B., Toma, C., Torrico, B., Chiocchetti, A.G., Bacchelli, E., Trabetti, E., Hervas, A., Franke, B., Buitelaar, J.K., Rommelse, N.N.J., Yousaf, A., Duketis, E., Freitag, C.M., Caballero-Andaluz, R., Martinez-Mir, A., Scholl, F.G., Ribases, M., Battaglia, A., Malerba, G., Delorme, R., Benabou, M., Maestrini, E., Bourgeron, T., Cormand, B., and Toma, C.

Abstract

Contains fulltext : 169730.pdf (publisher's version ) (Closed access), Common variants contribute significantly to the genetics of autism spectrum disorder (ASD), although the identification of individual risk polymorphisms remains still elusive due to their small effect sizes and limited sample sizes available for association studies. During the last decade several genome-wide association studies (GWAS) have enabled the detection of a few plausible risk variants. The three main studies are family-based and pointed at SEMA5A (rs10513025), MACROD2 (rs4141463) and MSNP1 (rs4307059). In our study we attempted to replicate these GWAS hits using a case-control association study in five European populations of ASD patients and gender-matched controls, all Caucasians. Results showed no association of individual variants with ASD in any of the population groups considered or in the combined European sample. We performed a meta-analysis study across five European populations for rs10513025 (1,904 ASD cases and 2,674 controls), seven European populations for rs4141463 (2,855 ASD cases and 36,177 controls) and five European populations for rs4307059 (2,347 ASD cases and 2,764 controls). The results showed an odds ratio (OR) of 1.05 (95% CI = 0.84-1.32) for rs10513025, 1.0002 (95% CI = 0.93-1.08) for rs4141463 and 1.01 (95% CI = 0.92-1.1) for rs4307059, with no significant P-values (rs10513025, P = 0.73; rs4141463, P = 0.95; rs4307059, P = 0.9). No association was found when we considered either only high functioning autism (HFA), genders separately or only multiplex families. Ongoing GWAS projects with larger ASD cohorts will contribute to clarify the role of common variation in the disorder and will likely identify risk variants of modest effect not detected previously. Autism Res 2017, 10: 202-211. (c) 2016 International Society for Autism Research, Wiley Periodicals, Inc.

Published
2017

9. Lack of replication of previous autism spectrum disorder GWAS hits in European populations

Author

Torrico, B, Chiocchetti, AG, Bacchelli, E, Trabetti, E, Hervás, A, Franke, B, Buitelaar, JK, Rommelse, N, Yousaf, A, Duketis, E, Freitag, CM, Caballero-Andaluz, R, Martinez-Mir, A, Scholl, FG, Ribasés, M, Battaglia, A, Malerba, G, Delorme, R, Benabou, M, Maestrini, E, Bourgeron, T, Cormand, B, Toma, C, Torrico, B, Chiocchetti, AG, Bacchelli, E, Trabetti, E, Hervás, A, Franke, B, Buitelaar, JK, Rommelse, N, Yousaf, A, Duketis, E, Freitag, CM, Caballero-Andaluz, R, Martinez-Mir, A, Scholl, FG, Ribasés, M, Battaglia, A, Malerba, G, Delorme, R, Benabou, M, Maestrini, E, Bourgeron, T, Cormand, B, and Toma, C

Abstract

Common variants contribute significantly to the genetics of autism spectrum disorder (ASD), although the identification of individual risk polymorphisms remains still elusive due to their small effect sizes and limited sample sizes available for association studies. During the last decade several genome-wide association studies (GWAS) have enabled the detection of a few plausible risk variants. The three main studies are family-based and pointed at SEMA5A (rs10513025), MACROD2 (rs4141463) and MSNP1 (rs4307059). In our study we attempted to replicate these GWAS hits using a case-control association study in five European populations of ASD patients and gender-matched controls, all Caucasians. Results showed no association of individual variants with ASD in any of the population groups considered or in the combined European sample. We performed a meta-analysis study across five European populations for rs10513025 (1,904 ASD cases and 2,674 controls), seven European populations for rs4141463 (2,855 ASD cases and 36,177 controls) and five European populations for rs4307059 (2,347 ASD cases and 2,764 controls). The results showed an odds ratio (OR) of 1.05 (95% CI = 0.84–1.32) for rs10513025, 1.0002 (95% CI = 0.93–1.08) for rs4141463 and 1.01 (95% CI = 0.92–1.1) for rs4307059, with no significant P-values (rs10513025, P = 0.73; rs4141463, P = 0.95; rs4307059, P = 0.9). No association was found when we considered either only high functioning autism (HFA), genders separately or only multiplex families. Ongoing GWAS projects with larger ASD cohorts will contribute to clarify the role of common variation in the disorder and will likely identify risk variants of modest effect not detected previously. Autism Res 2017, 10: 202–211. © 2016 International Society for Autism Research, Wiley Periodicals, Inc.

Published
2017

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

Author

Torrico, B., Fernàndez-Castillo, N., Hervás, A., Milà, M., Salgado, M., Rueda, I., Buitelaar, J.K., Rommelse, N.N.J., Oerlemans, A.M., Bralten, J.B., Freitag, C.M., Reif, A., Battaglia, A., Mazzone, L., Maestrini, E., Cormand, B., Toma, C., Torrico, B., Fernàndez-Castillo, N., Hervás, A., Milà, M., Salgado, M., Rueda, I., Buitelaar, J.K., Rommelse, N.N.J., Oerlemans, A.M., Bralten, J.B., Freitag, C.M., Reif, A., Battaglia, A., Mazzone, L., Maestrini, E., Cormand, B., and Toma, C.

Abstract

Contains fulltext : 152070.pdf (publisher's version ) (Closed access)

Published
2015

18. ADHD and Obesity: Dopaminergic Signaling as Biological Link.

Author

Mota, N. Roth, Poelmans, G., Klein, M., Torrico, B., Fernàndez-Castillo, N., Cormand, B., Reif, A., Franke, B., and Arias Vásquez, A.

Subjects
ATTENTION-deficit hyperactivity disorder, NEURAL transmission, BODY mass index, DATA replication, RESPONSE inhibition, CIRCADIAN rhythms
Abstract

Attention-Deficit/Hyperactivity Disorder (ADHD) and obesity are frequently comorbid, genetically correlated, and share brain substrates. The biological mechanisms driving this association are unclear, but candidate systems, like dopaminergic neurotransmission and circadian rhythm, have been suggested. Our aim was to identify the biological mechanisms underpinning the genetic link betweenADHDand obesitymeasures and investigate associations of overlapping genes with brain volumes. We tested the association of dopaminergic and circadian rhythm gene sets with ADHD, body mass index (BMI), and obesity (using GWAS data of N=53,293, N=681,275, and N=98,697, respectively). We then conducted genome-wide ADHD-BMI and ADHD-obesity genebased meta-analyses, followed by pathway enrichment analyses. Finally, we tested the association of ADHD-BMI overlapping genes with brain volumes (primary GWAS data N=10,720-10,928; replication data N=9,428). The dopaminergic gene set was associated with both ADHD (P=5.81x10-3) and BMI (P=1.63x10-5), the circadian rhythm was associated with BMI (P=1.28x10-3). The genome-wide approach also implicated the dopaminergic system, as the Dopamine-DARPP32 Feedback in cAMP Signaling pathway was enriched in both ADHD-BMI and ADHD-obesity results. The ADHD-BMI overlapping genes were associated with putamen volume (P=7.7x10-3; replication data P=3.9x10-2) - a brain region with volumetric reductions in ADHD and BMI and linked to inhibitory control. Our findings suggest that dopaminergic neurotransmission, partially through DARPP-32-dependent signaling and involving the putamen, is a key player underlying the genetic overlap between ADHD and obesity measures. Uncovering shared etiological factors underlying the frequently observedADHD-obesity comorbiditymay have important implications in terms of prevention and/or efficient treatment of these conditions. [ABSTRACT FROM AUTHOR]

Published
2020

20. The pleiotropic contribution of genes in dopaminergic and serotonergic pathways to addiction and related behavioral traits.

Author

Antón-Galindo E, Cabana-Domínguez J, Torrico B, Corominas R, Cormand B, and Fernàndez-Castillo N

Abstract

Introduction: Co-occurrence of substance use disorders (SUD) and other behavioral conditions, such as stress-related, aggressive or risk-taking behaviors, in the same individual has been frequently described. As dopamine (DA) and serotonin (5-HT) have been previously identified as key neurotransmitters for some of these phenotypes, we explored the genetic contribution of these pathways to SUD and these comorbid phenotypes in order to better understand the genetic relationship between them., Methods: We tested the association of 275 dopaminergic genes and 176 serotonergic genes with these phenotypes by performing gene-based, gene-set and transcriptome-wide association studies in 11 genome-wide association studies (GWAS) datasets on SUD and related behaviors., Results: At the gene-wide level, 68 DA and 27 5-HT genes were found to be associated with at least one GWAS on SUD or related behavior. Among them, six genes had a pleiotropic effect, being associated with at least three phenotypes: ADH1C , ARNTL , CHRNA3, HPRT1 , HTR1B and DRD2 . Additionally, we found nominal associations between the DA gene sets and SUD, opioid use disorder, antisocial behavior, irritability and neuroticism, and between the 5-HT-core gene set and neuroticism. Predicted gene expression correlates in brain were also found for 19 DA or 5-HT genes., Discussion: Our study shows a pleiotropic contribution of dopaminergic and serotonergic genes to addiction and related behaviors such as anxiety, irritability, neuroticism and risk-taking behavior, highlighting a role for DA genes, which could explain, in part, the co-occurrence of these phenotypes., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Antón-Galindo, Cabana-Domínguez, Torrico, Corominas, Cormand and Fernàndez-Castillo.)

Published
2023
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21. Comprehensive exploration of the genetic contribution of the dopaminergic and serotonergic pathways to psychiatric disorders.

Author

Cabana-Domínguez J, Torrico B, Reif A, Fernàndez-Castillo N, and Cormand B

Subjects
Dopamine, Humans, Autism Spectrum Disorder genetics, Bipolar Disorder genetics, Obsessive-Compulsive Disorder, Schizophrenia genetics
Abstract

Psychiatric disorders are highly prevalent and display considerable clinical and genetic overlap. Dopaminergic and serotonergic neurotransmission have been shown to play an important role in many psychiatric disorders. Here we aim to assess the genetic contribution of these systems to eight psychiatric disorders (attention-deficit hyperactivity disorder (ADHD), anorexia nervosa (ANO), autism spectrum disorder (ASD), bipolar disorder (BIP), major depression (MD), obsessive-compulsive disorder (OCD), schizophrenia (SCZ) and Tourette's syndrome (TS)) using publicly available GWAS analyses performed by the Psychiatric Genomics Consortium that include more than 160,000 cases and 275,000 controls. To do so, we elaborated four different gene sets: two 'wide' selections for dopamine (DA) and for serotonin (SERT) using the Gene Ontology and KEGG pathways tools, and two'core' selections for the same systems, manually curated. At the gene level, we found 67 genes from the DA and/or SERT gene sets significantly associated with one of the studied disorders, and 12 of them were associated with two different disorders. Gene-set analysis revealed significant associations for ADHD and ASD with the wide DA gene set, for BIP with the wide SERT gene set, and for MD with the core SERT set. Interestingly, interrogation of a cross-disorder GWAS meta-analysis of the eight psychiatric conditions displayed association with the wide DA gene set. To our knowledge, this is the first systematic examination of genes encoding proteins essential to the function of these two neurotransmitter systems in these disorders. Our results support a pleiotropic contribution of the dopaminergic and serotonergic systems in several psychiatric conditions., (© 2021. The Author(s).)

Published
2022
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22. Exploring the Contribution to ADHD of Genes Involved in Mendelian Disorders Presenting with Hyperactivity and/or Inattention.

Author

Fernàndez-Castillo N, Cabana-Domínguez J, Kappel DB, Torrico B, Weber H, Lesch KP, Lao O, Reif A, and Cormand B

Subjects
Adolescent, Adult, Aged, Attention Deficit Disorder with Hyperactivity epidemiology, Case-Control Studies, Comorbidity, Female, Humans, Male, Middle Aged, Phenotype, Pneumonia, Aspiration pathology, Exome Sequencing, Young Adult, Attention Deficit Disorder with Hyperactivity genetics, Attention Deficit Disorder with Hyperactivity pathology, Genetic Markers, Pneumonia, Aspiration genetics
Abstract

Attention-deficit hyperactivity disorder (ADHD) is a complex neurodevelopmental disorder characterized by hyperactivity, impulsivity, and/or inattention, which are symptoms also observed in many rare genetic disorders. We searched for genes involved in Mendelian disorders presenting with ADHD symptoms in the Online Mendelian Inheritance in Man (OMIM) database, to curate a list of new candidate risk genes for ADHD. We explored the enrichment of functions and pathways in this gene list, and tested whether rare or common variants in these genes are associated with ADHD or with its comorbidities. We identified 139 genes, causal for 137 rare disorders, mainly related to neurodevelopmental and brain function. Most of these Mendelian disorders also present with other psychiatric traits that are often comorbid with ADHD. Using whole exome sequencing (WES) data from 668 ADHD cases, we found rare variants associated with the dimension of the severity of inattention symptoms in three genes: KIF11 , WAC , and CRBN . Then, we focused on common variants and identified six genes associated with ADHD (in 19,099 cases and 34,194 controls): MANBA , UQCC2 , HIVEP2 , FOPX1 , KANSL1 , and AUH . Furthermore, HIVEP2 , FOXP1 , and KANSL1 were nominally associated with autism spectrum disorder (ASD) (18,382 cases and 27,969 controls), as well as HIVEP2 with anxiety (7016 cases and 14,475 controls), and FOXP1 with aggression (18,988 individuals), which is in line with the symptomatology of the rare disorders they are responsible for. In conclusion, inspecting Mendelian disorders and the genes responsible for them constitutes a valuable approach for identifying new risk genes and the mechanisms of complex disorders.

Published
2021
Full Text
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23. Involvement of the 14-3-3 Gene Family in Autism Spectrum Disorder and Schizophrenia: Genetics, Transcriptomics and Functional Analyses.

Author

Torrico B, Antón-Galindo E, Fernàndez-Castillo N, Rojo-Francàs E, Ghorbani S, Pineda-Cirera L, Hervás A, Rueda I, Moreno E, Fullerton JM, Casadó V, Buitelaar JK, Rommelse N, Franke B, Reif A, Chiocchetti AG, Freitag C, Kleppe R, Haavik J, Toma C, and Cormand B

Abstract

The 14-3-3 protein family are molecular chaperones involved in several biological functions and neurological diseases. We previously pinpointed YWHAZ (encoding 14-3-3ζ) as a candidate gene for autism spectrum disorder (ASD) through a whole-exome sequencing study, which identified a frameshift variant within the gene (c.659-660insT, p.L220Ffs*18). Here, we explored the contribution of the seven human 14-3-3 family members in ASD and other psychiatric disorders by investigating the: (i) functional impact of the 14-3-3ζ mutation p.L220Ffs*18 by assessing solubility, target binding and dimerization; (ii) contribution of common risk variants in 14-3-3 genes to ASD and additional psychiatric disorders; (iii) burden of rare variants in ASD and schizophrenia; and iv) 14-3-3 gene expression using ASD and schizophrenia transcriptomic data. We found that the mutant 14-3-3ζ protein had decreased solubility and lost its ability to form heterodimers and bind to its target tyrosine hydroxylase. Gene-based analyses using publicly available datasets revealed that common variants in YWHAE contribute to schizophrenia ( p = 6.6 × 10 -7 ), whereas ultra-rare variants were found enriched in ASD across the 14-3-3 genes ( p = 0.017) and in schizophrenia for YWHAZ (meta- p = 0.017). Furthermore, expression of 14-3-3 genes was altered in post-mortem brains of ASD and schizophrenia patients. Our study supports a role for the 14-3-3 family in ASD and schizophrenia.

Published
2020
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24. Cross-disorder genetic analyses implicate dopaminergic signaling as a biological link between Attention-Deficit/Hyperactivity Disorder and obesity measures.

Author

Mota NR, Poelmans G, Klein M, Torrico B, Fernàndez-Castillo N, Cormand B, Reif A, Franke B, and Arias Vásquez A

Subjects
Body Mass Index, Humans, Obesity genetics, Signal Transduction genetics, Attention Deficit Disorder with Hyperactivity genetics, Dopamine physiology
Abstract

Attention-Deficit/Hyperactivity Disorder (ADHD) and obesity are frequently comorbid, genetically correlated, and share brain substrates. The biological mechanisms driving this association are unclear, but candidate systems, like dopaminergic neurotransmission and circadian rhythm, have been suggested. Our aim was to identify the biological mechanisms underpinning the genetic link between ADHD and obesity measures and investigate associations of overlapping genes with brain volumes. We tested the association of dopaminergic and circadian rhythm gene sets with ADHD, body mass index (BMI), and obesity (using GWAS data of N = 53,293, N = 681,275, and N = 98,697, respectively). We then conducted genome-wide ADHD-BMI and ADHD-obesity gene-based meta-analyses, followed by pathway enrichment analyses. Finally, we tested the association of ADHD-BMI overlapping genes with brain volumes (primary GWAS data N = 10,720-10,928; replication data N = 9428). The dopaminergic gene set was associated with both ADHD (P = 5.81 × 10 -3 ) and BMI (P = 1.63 × 10 -5 ); the circadian rhythm was associated with BMI (P = 1.28 × 10 -3 ). The genome-wide approach also implicated the dopaminergic system, as the Dopamine-DARPP32 Feedback in cAMP Signaling pathway was enriched in both ADHD-BMI and ADHD-obesity results. The ADHD-BMI overlapping genes were associated with putamen volume (P = 7.7 × 10 -3 ; replication data P = 3.9 × 10 -2 )-a brain region with volumetric reductions in ADHD and BMI and linked to inhibitory control. Our findings suggest that dopaminergic neurotransmission, partially through DARPP-32-dependent signaling and involving the putamen, is a key player underlying the genetic overlap between ADHD and obesity measures. Uncovering shared etiological factors underlying the frequently observed ADHD-obesity comorbidity may have important implications in terms of prevention and/or efficient treatment of these conditions.

Published
2020
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25. Truncating variant burden in high-functioning autism and pleiotropic effects of LRP1 across psychiatric phenotypes

Author

Torrico B, Shaw AD, Mosca R, Vivó-Luque N, Hervás A, Fernàndez-Castillo N, Aloy P, Bayés M, Fullerton JM, Cormand B, and Toma C

Subjects
Adolescent, Adult, Alleles, Autism Spectrum Disorder genetics, Databases, Genetic, Epilepsy genetics, Family, Female, Gene Regulatory Networks, Genetic Pleiotropy, Humans, Intellectual Disability genetics, Male, Models, Molecular, Mutation, RNA Splicing, Schizophrenia genetics, Siblings, Spain, Exome Sequencing, Young Adult, Autistic Disorder genetics, Low Density Lipoprotein Receptor-Related Protein-1 genetics
Abstract

Background: Previous research has implicated de novo and inherited truncating mutations in autism-spectrum disorder. We aim to investigate whether the load of inherited truncating mutations contributes similarly to high-functioning autism, and to characterize genes that harbour de novo variants in high-functioning autism., Methods: We performed whole-exome sequencing in 20 high-functioning autism families (average IQ = 100)., Results: We observed no difference in the number of transmitted versus nontransmitted truncating alleles for high-functioning autism (117 v. 130, p = 0.78). Transmitted truncating and de novo variants in high-functioning autism were not enriched in gene ontology (GO) or Kyoto Encyclopedia of Genes and Genomes (KEGG) categories, or in autism-related gene sets. However, in a patient with high-functioning autism we identified a de novo variant in a canonical splice site of LRP1, a postsynaptic density gene that is a target for fragile X mental retardation protein (FRMP). This de novo variant leads to in-frame skipping of exon 29, removing 2 of 6 blades of the β-propeller domain 4 of LRP1, with putative functional consequences. Large data sets implicate LRP1 across a number of psychiatric disorders: de novo variants are associated with autism-spectrum disorder (p = 0.039) and schizophrenia (p = 0.008) from combined sequencing projects; common variants using genome-wide association study data sets from the Psychiatric Genomics Consortium show gene-based association in schizophrenia (p = 6.6 × E−07) and in a meta-analysis across 7 psychiatric disorders (p = 2.3 × E−03); and the burden of ultra-rare pathogenic variants has been shown to be higher in autism-spectrum disorder (p = 1.2 × E−05), using whole-exome sequencing from 6135 patients with schizophrenia, 1778 patients with autism-spectrum disorder and 7875 controls., Limitations: We had a limited sample of patients with high-functioning autism, related to difficulty in recruiting probands with high cognitive performance and no family history of psychiatric disorders., Conclusion: Previous studies and ours suggest an effect of truncating mutations restricted to severe autism-spectrum disorder phenotypes that are associated with intellectual disability. We provide evidence for pleiotropic effects of common and rare variants in the LRP1 gene across psychiatric phenotypes., Competing Interests: None declared., (© 2019 Joule Inc. or its licensors)

Published
2019
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26. Lack of replication of previous autism spectrum disorder GWAS hits in European populations.

Author

Torrico B, Chiocchetti AG, Bacchelli E, Trabetti E, Hervás A, Franke B, Buitelaar JK, Rommelse N, Yousaf A, Duketis E, Freitag CM, Caballero-Andaluz R, Martinez-Mir A, Scholl FG, Ribasés M, Battaglia A, Malerba G, Delorme R, Benabou M, Maestrini E, Bourgeron T, Cormand B, and Toma C

Subjects
Case-Control Studies, Europe, Female, Genome-Wide Association Study methods, Humans, Male, Reproducibility of Results, Autism Spectrum Disorder genetics, Genome-Wide Association Study statistics & numerical data
Abstract

Common variants contribute significantly to the genetics of autism spectrum disorder (ASD), although the identification of individual risk polymorphisms remains still elusive due to their small effect sizes and limited sample sizes available for association studies. During the last decade several genome-wide association studies (GWAS) have enabled the detection of a few plausible risk variants. The three main studies are family-based and pointed at SEMA5A (rs10513025), MACROD2 (rs4141463) and MSNP1 (rs4307059). In our study we attempted to replicate these GWAS hits using a case-control association study in five European populations of ASD patients and gender-matched controls, all Caucasians. Results showed no association of individual variants with ASD in any of the population groups considered or in the combined European sample. We performed a meta-analysis study across five European populations for rs10513025 (1,904 ASD cases and 2,674 controls), seven European populations for rs4141463 (2,855 ASD cases and 36,177 controls) and five European populations for rs4307059 (2,347 ASD cases and 2,764 controls). The results showed an odds ratio (OR) of 1.05 (95% CI = 0.84-1.32) for rs10513025, 1.0002 (95% CI = 0.93-1.08) for rs4141463 and 1.01 (95% CI = 0.92-1.1) for rs4307059, with no significant P-values (rs10513025, P = 0.73; rs4141463, P = 0.95; rs4307059, P = 0.9). No association was found when we considered either only high functioning autism (HFA), genders separately or only multiplex families. Ongoing GWAS projects with larger ASD cohorts will contribute to clarify the role of common variation in the disorder and will likely identify risk variants of modest effect not detected previously. Autism Res 2017, 10: 202-211. © 2016 International Society for Autism Research, Wiley Periodicals, Inc., (© 2016 International Society for Autism Research, Wiley Periodicals, Inc.)

Published
2017
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27. A Highly Polymorphic Copy Number Variant in the NSF Gene is Associated with Cocaine Dependence.

Author

Cabana-Domínguez J, Roncero C, Grau-López L, Rodríguez-Cintas L, Barral C, Abad AC, Erikson G, Wineinger NE, Torrico B, Arenas C, Casas M, Ribasés M, Cormand B, and Fernàndez-Castillo N

Subjects
Adult, Aged, Case-Control Studies, DNA Copy Number Variations, Female, Genetic Association Studies, Genetic Predisposition to Disease, Humans, Male, Middle Aged, Cocaine-Related Disorders genetics, N-Ethylmaleimide-Sensitive Proteins genetics
Abstract

Cocaine dependence is a complex psychiatric disorder involving both genetic and environmental factors. Several neurotransmitter systems mediate cocaine's effects, dependence and relapse, being the components of the neurotransmitter release machinery good candidates for the disorder. Previously, we identified a risk haplotype for cocaine dependence in the NSF gene, encoding the protein N-Ethylmaleimide-Sensitive Factor essential for synaptic vesicle turnover. Here we examined the possible contribution to cocaine dependence of a large copy number variant (CNV) that encompasses part of the NSF gene. We performed a case-control association study in a discovery sample (359 cases and 356 controls) and identified an association between cocaine dependence and the CNV (P = 0.013), that was confirmed in the replication sample (508 cases and 569 controls, P = 7.1e-03) and in a pooled analysis (P = 1.8e-04), with an over-representation of low number of copies in cases. Subsequently, we studied the functional impact of the CNV on gene expression and found that the levels of two NSF transcripts were significantly increased in peripheral blood mononuclear cells (PBMC) along with the number of copies of the CNV. These results, together with a previous study from our group, support the role of NSF in the susceptibility to cocaine dependence.

Published
2016
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28. Contribution of common and rare variants of the PTCHD1 gene to autism spectrum disorders and intellectual disability.

Author

Torrico B, Fernàndez-Castillo N, Hervás A, Milà M, Salgado M, Rueda I, Buitelaar JK, Rommelse N, Oerlemans AM, Bralten J, Freitag CM, Reif A, Battaglia A, Mazzone L, Maestrini E, Cormand B, and Toma C

Subjects
Case-Control Studies, Cell Line, Tumor, Female, Humans, Male, Membrane Proteins metabolism, Mutation, Missense, Promoter Regions, Genetic, Trinucleotide Repeats, Autism Spectrum Disorder genetics, Intellectual Disability genetics, Membrane Proteins genetics, Polymorphism, Single Nucleotide
Abstract

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.

Published
2015
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29. Common and rare variants of microRNA genes in autism spectrum disorders.

Author

Toma C, Torrico B, Hervás A, Salgado M, Rueda I, Valdés-Mas R, Buitelaar JK, Rommelse N, Franke B, Freitag C, Reif A, Pérez-Jurado LA, Battaglia A, Mazzone L, Bacchelli E, Puente XS, and Cormand B

Abstract

Objectives: MicroRNAs (miRNAs) are post-transcriptional regulators that have been shown to be involved in disease susceptibility. Here we explore the possible contribution of common and rare variants in miRNA genes in autism spectrum disorders (ASD)., Methods: A total of 350 tag SNPs from 163 miRNA genes were genotyped in 636 ASD cases and 673 controls. A replication study was performed in a sample of 449 ASD cases and 415 controls. Additionally, rare variants in 701 miRNA genes of 41 ASD patients were examined using whole-exome sequencing., Results: The most significant association in the discovery sample was obtained for the miR-133b/miR-206 cluster (rs16882131, P = 0.00037). The replication study did not reach significance. However, the pooled analysis (1,085 cases and 1,088 controls) showed association with two miRNA clusters: miR-133b/miR-206 (rs16882131, permP = 0.037) and miR-17/miR-18a/miR-19a/miR-20a/miR-19b-1/miR92a-1 (rs6492538, permP = 0.019). Both miR-133b and miR-206 regulate the MET gene, previously associated with ASD. Rare variant analysis identified mutations in several miRNA genes, among them miR-541, a brain-specific miRNA that regulates SYN1, found mutated in ASD., Conclusions: Although our results do not establish a clear role for miRNAs in ASD, we pinpointed a few candidate genes. Further exome and GWAS studies are warranted to get more insight into their potential contribution to the disorder.

Published
2015
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30. Analysis of two language-related genes in autism: a case-control association study of FOXP2 and CNTNAP2.

Author

Toma C, Hervás A, Torrico B, Balmaña N, Salgado M, Maristany M, Vilella E, Martínez-Leal R, Planelles MI, Cuscó I, del Campo M, Pérez-Jurado LA, Caballero-Andaluz R, de Diego-Otero Y, Pérez-Costillas L, Ramos-Quiroga JA, Ribasés M, Bayés M, and Cormand B

Subjects
Adolescent, Case-Control Studies, Female, Genetic Markers, Humans, Male, Spain, Autistic Disorder genetics, Forkhead Transcription Factors genetics, Genetic Association Studies, Genetic Predisposition to Disease, Language, Membrane Proteins genetics, Nerve Tissue Proteins genetics
Abstract

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.

Published
2013
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31. Cerebral folate deficiency syndromes in childhood: clinical, analytical, and etiologic aspects.

Author

Pérez-Dueñas B, Ormazábal A, Toma C, Torrico B, Cormand B, Serrano M, Sierra C, De Grandis E, Marfa MP, García-Cazorla A, Campistol J, Pascual JM, and Artuch R

Subjects
Adolescent, Biogenic Amines cerebrospinal fluid, Child, Child, Preschool, Female, Folate Receptor 1 genetics, Folic Acid administration & dosage, Folic Acid Deficiency drug therapy, Folic Acid Deficiency metabolism, Humans, Infant, Infant, Newborn, Male, Prospective Studies, Pterins cerebrospinal fluid, Sequence Analysis, DNA, Spinal Puncture, Brain metabolism, Folic Acid therapeutic use, Folic Acid Deficiency cerebrospinal fluid, Folic Acid Deficiency diagnosis, Tetrahydrofolates cerebrospinal fluid, Tetrahydrofolates deficiency
Abstract

Background: Cerebral folate deficiency may be amenable to therapeutic supplementation. Diverse metabolic pathways and unrelated processes can lead to cerebrospinal fluid 5-methyltetrahydrofolate (5-MTHF) depletion, the hallmark of cerebral folate deficiency., Objective: To analyze cerebral folate abundance in a large prospective series of children diagnosed with any neurologic disorder for which a diagnostic lumbar puncture was indicated., Design: We studied the spectrum and frequency of disorders associated with cerebral folate deficiency by measuring cerebrospinal fluid 5-MTHF, biogenic amines, and pterins. Direct sequencing of the FOLR1 transporter gene was also performed in some patients., Setting: Academic pediatric medical center., Participants: We studied 134 individuals free of neurometabolic disease and 584 patients with any of several diseases of the central nervous system., Results: Of 584 patients, 71 (12%) exhibited 5-MTHF deficiency. Mild to moderate deficiency (n = 63; range, 19-63 nmol/L) was associated with perinatal asphyxia, central nervous system infection, or diseases of probable genetic origin (inborn errors of metabolism, white matter disorders, Rett syndrome, or epileptic encephalopathies). Severe 5-MTHF depletion (n = 8; range, 0.6-13 nmol/L) was detected in severe MTHF reductase deficiency, Kearns-Sayre syndrome, biotin-responsive striatal necrosis, acute necrotizing encephalitis of Hurst, and FOLR1 defect. A strong correlation was observed between cerebrospinal fluid and plasma folate levels in cerebral folate deficiency., Conclusions: Of the 2 main forms of cerebral folate deficiency identified, mild to moderate 5-MTHF deficiency was most commonly associated with disorders bearing no primary relation to folate metabolism, whereas profound 5-MTHF depletion was associated with specific mitochondrial disorders, metabolic and transporter defects, or cerebral degenerations. The results suggest that 5-MTHF can serve either as the hallmark of inborn disorders of folate transport and metabolism or, more frequently, as an indicator of neurologic dysfunction.

Published
2011
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