BACKGROUND: Autism spectrum disorders (ASDs) are common, heritable neurobiologic conditions of unknown aetiology confounded by significant clinical and genetic heterogeneity. METHODS: This study evaluated a broad categorisation of phenotypic traits (or phenome) for 100 subjects with Autism Diagnostic Interview-Revised/Autism Diagnostic Observation Schedule-Generic (ADI-R/ADOS-G) confirmed idiopathic ASD undergoing 1 Mb bacterial artificial chromosome (BAC) array comparative genomic hybridisation (CGH). RESULTS AND CONCLUSIONS: Array CGH uncovered nine different pathogenic copy number variants (pCNVs) in 9/100 ASD subjects having complex phenotypes (ASD+/- intellectual disability (ID; IQ<70)) and/or physical anomalies), normal karyotype, fragile X analysis, and comprehensive evaluation by a clinical geneticist. Unique pCNVs in our cohort included del(5)(p15.2p15.31) (2.4 Mb), del(3)(p24.3) (0.1 Mb) and dup(18)(p11.3)(0.9 Mb). Five pCNVs were recurrent in our cohort or were previously described in subjects with ASD+/-ID: (dup(7)(q11.23)(1.5 Mb); del(2)(p15p16.1) (6.1 Mb and 7.9 Mb); del(14)(q11.2) (0.7 Mb) and dup(15)(q11q13) (10 Mb), including del(X)(p11.22) (470 Kb) in two autistic brothers. Male: female distribution in subjects with pCNVs was reduced to 1.25:1 from 3.2:1 in the original cohort. The authors stratified the study population according to a broad spectrum of clinical features and correlated specific phenotypes with respect to CNV load and pathogenicity. The findings indicate increased prevalence of pCNVs in subjects with microcephaly (<2nd centile; n = 2 of 4 ASD subjects with microcephaly; p = 0.04), and ID (n = 9 of 64 subjects with ASD and ID; p = 0.02). Interestingly, in the absence of ID co-morbidity with an ASD, no pCNVs were found. The relationship between parental ages at delivery and CNV load and pathogenicity was also explored.
BACKGROUND:Autism spectrum disorders (ASDs) are common, heritable neurobiologic conditions of unknown aetiology confounded by significant clinical and genetic heterogeneity. METHODS: This study evaluated a broad categorisation of phenotypic traits (or phenome) for 100 subjects with Autism Diagnostic Interview-Revised/Autism Diagnostic Observation Schedule-Generic (ADI-R/ADOS-G) confirmed idiopathic ASD undergoing 1 Mb bacterial artificial chromosome (BAC) array comparative genomic hybridisation (CGH). RESULTS AND CONCLUSIONS: Array CGH uncovered nine different pathogenic copy number variants (pCNVs) in 9/100 ASD subjects having complex phenotypes (ASD+/- intellectual disability (ID; IQ<70)) and/or physical anomalies), normal karyotype, fragile X analysis, and comprehensive evaluation by a clinical geneticist. Unique pCNVs in our cohort included del(5)(p15.2p15.31) (2.4 Mb), del(3)(p24.3) (0.1 Mb) and dup(18)(p11.3)(0.9 Mb). Five pCNVs were recurrent in our cohort or were previously described in subjects with ASD+/-ID: (dup(7)(q11.23)(1.5 Mb); del(2)(p15p16.1) (6.1 Mb and 7.9 Mb); del(14)(q11.2) (0.7 Mb) and dup(15)(q11q13) (10 Mb), including del(X)(p11.22) (470 Kb) in two autistic brothers. Male: female distribution in subjects with pCNVs was reduced to 1.25:1 from 3.2:1 in the original cohort. The authors stratified the study population according to a broad spectrum of clinical features and correlated specific phenotypes with respect to CNV load and pathogenicity. The findings indicate increased prevalence of pCNVs in subjects with microcephaly (<2nd centile; n = 2 of 4 ASD subjects with microcephaly; p = 0.04), and ID (n = 9 of 64 subjects with ASD and ID; p = 0.02). Interestingly, in the absence of ID co-morbidity with an ASD, no pCNVs were found. The relationship between parental ages at delivery and CNV load and pathogenicity was also explored.
Authors: Y Qiao; C Harvard; C Tyson; X Liu; C Fawcett; P Pavlidis; J J A Holden; M E S Lewis; E Rajcan-Separovic Journal: Hum Genet Date: 2010-05-29 Impact factor: 4.132
Authors: Xudong Liu; Fatima Solehdin; Ira L Cohen; Maripaz G Gonzalez; Edmund C Jenkins; M E Suzanne Lewis; Jeanette J A Holden Journal: J Autism Dev Disord Date: 2011-07
Authors: Barbara Wiśniowiecka-Kowalnik; Monika Kastory-Bronowska; Magdalena Bartnik; Katarzyna Derwińska; Wanda Dymczak-Domini; Dorota Szumbarska; Ewa Ziemka; Krzysztof Szczałuba; Maciej Sykulski; Tomasz Gambin; Anna Gambin; Chad A Shaw; Tadeusz Mazurczak; Ewa Obersztyn; Ewa Bocian; Paweł Stankiewicz Journal: Eur J Hum Genet Date: 2012-10-03 Impact factor: 4.246
Authors: Nori Matsunami; Dexter Hadley; Charles H Hensel; G Bryce Christensen; Cecilia Kim; Edward Frackelton; Kelly Thomas; Renata Pellegrino da Silva; Jeff Stevens; Lisa Baird; Brith Otterud; Karen Ho; Tena Varvil; Tami Leppert; Christophe G Lambert; Mark Leppert; Hakon Hakonarson Journal: PLoS One Date: 2013-01-14 Impact factor: 3.240