TY - JOUR
T1 - A Co-segregating Microduplication of Chromosome 15q11.2 Pinpoints Two Risk Genes for Autism Spectrum Disorder
AU - van der Zwaag, B.
AU - Staal, W.G.
AU - Hochstenbach, R.
AU - Poot, ME
AU - Spierenburg, H.A.
AU - de Jonge, Maretha
AU - Verbeek, N.E.
AU - van ´t Slot, R.
AU - van Es, MA
AU - Staal, F.J.
AU - Freitag, C.M.
AU - Buizer - Voskamp, J.E.
AU - Nelen, M.R.
AU - van den Berg, L.H.
AU - Ploos van Amstel, J.K.
AU - van Engeland, H.
AU - Burbach, J.P.H.
PY - 2010
Y1 - 2010
N2 - High resolution genomic copy-number analysis has shown that inherited and de novo copy-number variations contribute significantly to autism pathology, and that identification of small chromosomal aberrations related to autism will expedite the discovery of risk genes involved. Here, we report a microduplication of chromosome 15q11.2, spanning only four genes, co-segregating with autism in a Dutch pedigree, identified by SNP microarray analysis, and independently confirmed by FISH and MLPA analysis. Quantitative RT-PCR analysis revealed over 70% increase in peripheral blood mRNA levels for the four genes present in the duplicated region in patients, and RNA in situ hybridization on mouse embryonic and adult brain sections revealed that two of the four genes, CYFIP1 and NIPA1, were highly expressed in the developing mouse brain. These findings point towards a contribution of microduplications at chromosome 15q11.2 to autism, and highlight CYFIP1 and NIPA1 as autism risk genes functioning in axonogenesis and synapto-genesis. Thereby, these findings further implicate defects in dosage-sensitive molecular control of neuronal connectivity in autism. However, the prevalence of this microduplication in patient samples was statistically not significantly different from control samples (0.94% in patients vs. 0.42% controls, P= 0.247), which suggests that our findings should be interpreted with caution and indicates the need for studies that include large numbers of control subjects to ascertain the impact of these changes on a population scale. (C) 2009 Wiley-Liss, Inc.
AB - High resolution genomic copy-number analysis has shown that inherited and de novo copy-number variations contribute significantly to autism pathology, and that identification of small chromosomal aberrations related to autism will expedite the discovery of risk genes involved. Here, we report a microduplication of chromosome 15q11.2, spanning only four genes, co-segregating with autism in a Dutch pedigree, identified by SNP microarray analysis, and independently confirmed by FISH and MLPA analysis. Quantitative RT-PCR analysis revealed over 70% increase in peripheral blood mRNA levels for the four genes present in the duplicated region in patients, and RNA in situ hybridization on mouse embryonic and adult brain sections revealed that two of the four genes, CYFIP1 and NIPA1, were highly expressed in the developing mouse brain. These findings point towards a contribution of microduplications at chromosome 15q11.2 to autism, and highlight CYFIP1 and NIPA1 as autism risk genes functioning in axonogenesis and synapto-genesis. Thereby, these findings further implicate defects in dosage-sensitive molecular control of neuronal connectivity in autism. However, the prevalence of this microduplication in patient samples was statistically not significantly different from control samples (0.94% in patients vs. 0.42% controls, P= 0.247), which suggests that our findings should be interpreted with caution and indicates the need for studies that include large numbers of control subjects to ascertain the impact of these changes on a population scale. (C) 2009 Wiley-Liss, Inc.
KW - autism spectrum disorder
KW - genetics
KW - copy-number
KW - gene-dosage
KW - gene expression
KW - PRADER-WILLI
KW - NEURONAL CONNECTIVITY
KW - CRITICAL REGION
KW - DROSOPHILA
KW - PROTEIN
UR - http://www.scopus.com/inward/record.url?scp=77952686118&partnerID=8YFLogxK
U2 - 10.1002/ajmg.b.31055
DO - 10.1002/ajmg.b.31055
M3 - Article
C2 - 20029941
SN - 1552-4841
VL - 153B
SP - 960
EP - 966
JO - American Journal of Medical Genetics. Part B, Neuropsychiatric Genetics
JF - American Journal of Medical Genetics. Part B, Neuropsychiatric Genetics
IS - 4
ER -