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Auteur Lan XIONG |
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Copy-number variants in the contactin-5 gene are a potential risk factor for autism spectrum disorder / Zoe SCHMILOVICH in Research in Autism Spectrum Disorders, 99 (November)
[article]
Titre : Copy-number variants in the contactin-5 gene are a potential risk factor for autism spectrum disorder Type de document : Texte imprimé et/ou numérique Auteurs : Zoe SCHMILOVICH, Auteur ; Guillaume HUGUET, Auteur ; Qin HE, Auteur ; Amélie MUSA-JOHNSON, Auteur ; Elise DOUARD, Auteur ; Mor Absa LOUM, Auteur ; Calwing LIAO, Auteur ; Jay P. ROSS, Auteur ; Alexandre DIONNE-LAPORTE, Auteur ; Dan SPIEGELMAN, Auteur ; Martineau JEAN-LOUIS, Auteur ; Zohra SACI, Auteur ; Caroline HAYWARD, Auteur ; Tobias BANASCHEWSKI, Auteur ; Arun BOKDE, Auteur ; Sylvane DESRIVIERES, Auteur ; Herve LEMAITRE, Auteur ; Gunter SCHUMANN, Auteur ; Lan XIONG, Auteur ; Patrick A. DION, Auteur ; Sébastien JACQUEMONT, Auteur ; Boris CHAUMETTE, Auteur ; Guy A. ROULEAU, Auteur Article en page(s) : 102055 Langues : Anglais (eng) Mots-clés : CNTN5 CNV intronic deletions neurodevelopment inherited Index. décimale : PER Périodiques Résumé : Background Contactin-5 (CNTN5) is a candidate risk gene for autism spectrum disorder (ASD). Previous attempts to associate CNTN5 CNVs with ASD-susceptibility were limited by insufficient statistical power. Here, we aim to clarify the putative association between CNTN5 CNVs and ASD-risk using large-scale case-control analyses. Method A CNTN5 CNV, shared by four brothers in a multiplex family with ASD, was initially identified. We calculated the prevalence and transmission of CNTN5 CNVs in cases across five ASD cohorts (n=15,784). Second, we compared the prevalence of CNTN5 CNVs in cases to their unaffected siblings (n=4,996). Third, we assessed the enrichment of CNTN5 CNVs in cases to extrafamilial controls across three cohorts (n=24,886) and the UK Biobank (n = 459,862). Finally, we evaluated the clinical impact of CNTN5 CNVs in a broad neurodevelopmental disorder cohort and the DECIPHER database. Results Most (96.7%) CNTN5 CNV deletions (0.193%) and duplications (0.03%) in cases were inherited by a parent that transmitted the variant to their affected and unaffected children at the same rate. We identified a significant enrichment of intronic CNTN5 CNV deletions in cases compared to extrafamilial controls (0.178% versus 0.019%; p-value=1.68E-05; OR:8.51; 95%CI=[2.58-44.21]). There was no difference in CNTN5 CNV enrichment between cases and individuals with NDDs. Conclusions Intronic CNTN5 CNV deletions are rare, inherited, and intermediate effect size ASD-susceptibility variants that may also confer risk for other neuropsychiatric disorders. We offer a framework to characterize candidate variants that may not be detected through small-scale approaches to implicate intermediate effect size variants in the etiology of ASD. En ligne : https://doi.org/10.1016/j.rasd.2022.102055 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=490
in Research in Autism Spectrum Disorders > 99 (November) . - 102055[article] Copy-number variants in the contactin-5 gene are a potential risk factor for autism spectrum disorder [Texte imprimé et/ou numérique] / Zoe SCHMILOVICH, Auteur ; Guillaume HUGUET, Auteur ; Qin HE, Auteur ; Amélie MUSA-JOHNSON, Auteur ; Elise DOUARD, Auteur ; Mor Absa LOUM, Auteur ; Calwing LIAO, Auteur ; Jay P. ROSS, Auteur ; Alexandre DIONNE-LAPORTE, Auteur ; Dan SPIEGELMAN, Auteur ; Martineau JEAN-LOUIS, Auteur ; Zohra SACI, Auteur ; Caroline HAYWARD, Auteur ; Tobias BANASCHEWSKI, Auteur ; Arun BOKDE, Auteur ; Sylvane DESRIVIERES, Auteur ; Herve LEMAITRE, Auteur ; Gunter SCHUMANN, Auteur ; Lan XIONG, Auteur ; Patrick A. DION, Auteur ; Sébastien JACQUEMONT, Auteur ; Boris CHAUMETTE, Auteur ; Guy A. ROULEAU, Auteur . - 102055.
Langues : Anglais (eng)
in Research in Autism Spectrum Disorders > 99 (November) . - 102055
Mots-clés : CNTN5 CNV intronic deletions neurodevelopment inherited Index. décimale : PER Périodiques Résumé : Background Contactin-5 (CNTN5) is a candidate risk gene for autism spectrum disorder (ASD). Previous attempts to associate CNTN5 CNVs with ASD-susceptibility were limited by insufficient statistical power. Here, we aim to clarify the putative association between CNTN5 CNVs and ASD-risk using large-scale case-control analyses. Method A CNTN5 CNV, shared by four brothers in a multiplex family with ASD, was initially identified. We calculated the prevalence and transmission of CNTN5 CNVs in cases across five ASD cohorts (n=15,784). Second, we compared the prevalence of CNTN5 CNVs in cases to their unaffected siblings (n=4,996). Third, we assessed the enrichment of CNTN5 CNVs in cases to extrafamilial controls across three cohorts (n=24,886) and the UK Biobank (n = 459,862). Finally, we evaluated the clinical impact of CNTN5 CNVs in a broad neurodevelopmental disorder cohort and the DECIPHER database. Results Most (96.7%) CNTN5 CNV deletions (0.193%) and duplications (0.03%) in cases were inherited by a parent that transmitted the variant to their affected and unaffected children at the same rate. We identified a significant enrichment of intronic CNTN5 CNV deletions in cases compared to extrafamilial controls (0.178% versus 0.019%; p-value=1.68E-05; OR:8.51; 95%CI=[2.58-44.21]). There was no difference in CNTN5 CNV enrichment between cases and individuals with NDDs. Conclusions Intronic CNTN5 CNV deletions are rare, inherited, and intermediate effect size ASD-susceptibility variants that may also confer risk for other neuropsychiatric disorders. We offer a framework to characterize candidate variants that may not be detected through small-scale approaches to implicate intermediate effect size variants in the etiology of ASD. En ligne : https://doi.org/10.1016/j.rasd.2022.102055 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=490 Sex differences in brain plasticity: a new hypothesis for sex ratio bias in autism / Laurent MOTTRON in Molecular Autism, (June 2015)
[article]
Titre : Sex differences in brain plasticity: a new hypothesis for sex ratio bias in autism Type de document : Texte imprimé et/ou numérique Auteurs : Laurent MOTTRON, Auteur ; Pauline DURET, Auteur ; Sophia MUELLER, Auteur ; Robert D. MOORE, Auteur ; Baudouin FORGEOT D'ARC, Auteur ; Sebastien JACQUEMONT, Auteur ; Lan XIONG, Auteur Article en page(s) : p.1-19 Langues : Anglais (eng) Index. décimale : PER Périodiques Résumé : Several observations support the hypothesis that differences in synaptic and regional cerebral plasticity between the sexes account for the high ratio of males to females in autism. First, males are more susceptible than females to perturbations in genes involved in synaptic plasticity. Second, sex-related differences in non-autistic brain structure and function are observed in highly variable regions, namely, the heteromodal associative cortices, and overlap with structural particularities and enhanced activity of perceptual associative regions in autistic individuals. Finally, functional cortical reallocations following brain lesions in non-autistic adults (for example, traumatic brain injury, multiple sclerosis) are sex-dependent. Interactions between genetic sex and hormones may therefore result in higher synaptic and consecutively regional plasticity in perceptual brain areas in males than in females. The onset of autism may largely involve mutations altering synaptic plasticity that create a plastic reaction affecting the most variable and sexually dimorphic brain regions. The sex ratio bias in autism may arise because males have a lower threshold than females for the development of this plastic reaction following a genetic or environmental event. En ligne : http://dx.doi.org/10.1186/s13229-015-0024-1 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=277
in Molecular Autism > (June 2015) . - p.1-19[article] Sex differences in brain plasticity: a new hypothesis for sex ratio bias in autism [Texte imprimé et/ou numérique] / Laurent MOTTRON, Auteur ; Pauline DURET, Auteur ; Sophia MUELLER, Auteur ; Robert D. MOORE, Auteur ; Baudouin FORGEOT D'ARC, Auteur ; Sebastien JACQUEMONT, Auteur ; Lan XIONG, Auteur . - p.1-19.
Langues : Anglais (eng)
in Molecular Autism > (June 2015) . - p.1-19
Index. décimale : PER Périodiques Résumé : Several observations support the hypothesis that differences in synaptic and regional cerebral plasticity between the sexes account for the high ratio of males to females in autism. First, males are more susceptible than females to perturbations in genes involved in synaptic plasticity. Second, sex-related differences in non-autistic brain structure and function are observed in highly variable regions, namely, the heteromodal associative cortices, and overlap with structural particularities and enhanced activity of perceptual associative regions in autistic individuals. Finally, functional cortical reallocations following brain lesions in non-autistic adults (for example, traumatic brain injury, multiple sclerosis) are sex-dependent. Interactions between genetic sex and hormones may therefore result in higher synaptic and consecutively regional plasticity in perceptual brain areas in males than in females. The onset of autism may largely involve mutations altering synaptic plasticity that create a plastic reaction affecting the most variable and sexually dimorphic brain regions. The sex ratio bias in autism may arise because males have a lower threshold than females for the development of this plastic reaction following a genetic or environmental event. En ligne : http://dx.doi.org/10.1186/s13229-015-0024-1 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=277