1Molecular Neuropsychiatry & Development (MiND) Lab,Centre for Addiction and Mental Health,Campbell Family Mental Health Research Institute,Toronto,Ontario,Canada.
2Atta-ur-Rehman School of Applied Biosciences (ASAB),National University of Sciences and Technology (NUST),Islamabad,Pakistan.
Acta Neuropsychiatr. 2015 Feb;27(1):38-47. doi: 10.1017/neu.2014.37. Epub 2014 Dec 1.
Autosomal recessive intellectual disability (ID) is genetically heterogeneous and most of the genes causing it remain undiscovered.
We have ascertained 11 consanguineous families multiplex for IDs in order to identify new loci for autosomal recessive genes for non-syndromic ID, or to aid pinpointing mutations in known causative gene/loci. Methodology Microarray genotyping (Affymatrix 250K) was performed to identify homozygosity-by-descent (HBD) in all affected families.
Analysis of genotypes revealed 45 potential HBD regions across the families, although these may be rationalised down to 39. Two families share an overlapping HBD region on 7q11.21. In one family, X-linkage also looks plausible, and a new ID gene near the centromere may be a likely cause. In one family, no HBD region was found, and thus we exclude autosomal recessive mutation as the likely cause in this family. Copy-number variation (CNV) was also performed and revealed no CNVs, homozygous or heterozygous, segregating with the phenotype.
The homozygous loci identified in this study might harbour candidate genes for ID in these studied families. Therefore, we are proceeding with next-generation sequencing analysis of the families, using whole-exome approaches, and anticipate that this will identify the causative gene/mutation within the identified HBD regions for many of the families studied here.
常染色体隐性智力障碍(ID)具有遗传异质性,大多数导致 ID 的基因仍未被发现。
我们已经确定了 11 个常染色体隐性非综合征性 ID 相关的多例家系,目的是识别新的基因座以发现常染色体隐性基因,或有助于确定已知致病基因/基因座的突变。
采用微阵列基因分型(Affymatrix 250K)对所有受影响的家系进行同源性分析。
基因型分析显示,这 45 个家系存在 45 个潜在的纯合子区域,但这些区域可能会被简化为 39 个。两个家系共享 7q11.21 上的重叠纯合子区域。一个家系可能存在 X 连锁遗传,而着丝粒附近的一个新 ID 基因可能是一个可能的原因。一个家系没有发现纯合子区域,因此我们排除了该家系中常染色体隐性突变作为可能的原因。拷贝数变异(CNV)也没有发现与表型共分离的纯合或杂合 CNV。
本研究中鉴定的纯合子区域可能包含所研究家系中 ID 的候选基因。因此,我们正在对这些家系进行下一代测序分析,使用全外显子方法,预计这将在许多所研究家系中确定鉴定的纯合子区域内的致病基因/突变。
