Autism spectrum disorders (ASD) and intellectual disability (ID) are characterized by a complex and heterogeneous genetic etiology. Recent developments in genomic research have enabled the discovery of numerous copy number variants (CNVs) in the pathogenesis of these disorders, although their etiology remains unknown in the majority of cases. This work concerns the identification and characterization of specific CNVs in families with ASD and ID. I studied a microdeletion in 7q31 encompassing the two genes DOCK4 and IMMP2L, transmitted from the mother (who has dylsexia) to two children with autism and to a daughter with dyslexia. In the same family we identified a second microdeletion in 2q14, that inactivates CNTNAP5, and is transmitted by the father (with ASD) to the two children with autism. We therefore hypothesized that DOCK4 and CNTNAP5 could be implicated in susceptibility to dyslexia and ASD, respectively. Screening of numerous affected individuals supported our hypothesis, leading to the identification of a new DOCK4 microdeletion segregating with dyslexia, and 3 new missense variants in CNTNAP5 in individuals with autism.Through array comparative genomic hybridization (aCGH) of individuals with ID, we also identified a 7q31.32 microdeletion involving the CADPS2 gene in two brothers with ID and autistic features, probably inherited from the mother. Screening for mutations in this gene in individuals with autism or ID, has led to the identification of 3 maternally inherited nonsynonymous variants, absent in controls. Since CADPS2 is located in a genomic region containing imprinted loci, we hypothesized that CADPS2 itself could be subjected to imprinting, with maternal monoallelic expression. Expression analysis of CADPS2 in blood cells supported this hypothesis, therefore suggesting CADPS2 as a new susceptibility gene for ID and ASD, and as possible new imprinted gene .
Analisi di “Copy Number Variants” ed identificazione di nuovi geni candidati per l’Autismo e Ritardo Mentale
2012
Abstract
Autism spectrum disorders (ASD) and intellectual disability (ID) are characterized by a complex and heterogeneous genetic etiology. Recent developments in genomic research have enabled the discovery of numerous copy number variants (CNVs) in the pathogenesis of these disorders, although their etiology remains unknown in the majority of cases. This work concerns the identification and characterization of specific CNVs in families with ASD and ID. I studied a microdeletion in 7q31 encompassing the two genes DOCK4 and IMMP2L, transmitted from the mother (who has dylsexia) to two children with autism and to a daughter with dyslexia. In the same family we identified a second microdeletion in 2q14, that inactivates CNTNAP5, and is transmitted by the father (with ASD) to the two children with autism. We therefore hypothesized that DOCK4 and CNTNAP5 could be implicated in susceptibility to dyslexia and ASD, respectively. Screening of numerous affected individuals supported our hypothesis, leading to the identification of a new DOCK4 microdeletion segregating with dyslexia, and 3 new missense variants in CNTNAP5 in individuals with autism.Through array comparative genomic hybridization (aCGH) of individuals with ID, we also identified a 7q31.32 microdeletion involving the CADPS2 gene in two brothers with ID and autistic features, probably inherited from the mother. Screening for mutations in this gene in individuals with autism or ID, has led to the identification of 3 maternally inherited nonsynonymous variants, absent in controls. Since CADPS2 is located in a genomic region containing imprinted loci, we hypothesized that CADPS2 itself could be subjected to imprinting, with maternal monoallelic expression. Expression analysis of CADPS2 in blood cells supported this hypothesis, therefore suggesting CADPS2 as a new susceptibility gene for ID and ASD, and as possible new imprinted gene .File | Dimensione | Formato | |
---|---|---|---|
Minopoli_Fiorella_Tesi.pdf
accesso solo da BNCF e BNCR
Tipologia:
Altro materiale allegato
Dimensione
5.26 MB
Formato
Adobe PDF
|
5.26 MB | Adobe PDF |
I documenti in UNITESI sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
https://hdl.handle.net/20.500.14242/140204
URN:NBN:IT:UNIBO-140204