López-Carrasco Amparo, Monfort Sandra, Roselló Mónica, Oltra Silvestre, Mayo Sonia, Martínez Francisco, Orellana Carmen
Unidad de Genética y Diagnóstico Prenatal, Hospital Universitario y Politécnico La Fe, Valencia, España.
Unidad de Genética y Diagnóstico Prenatal, Hospital Universitario y Politécnico La Fe, Valencia, España.
Med Clin (Barc). 2014 Jun 16;142(12):531-7. doi: 10.1016/j.medcli.2013.04.034. Epub 2013 Jun 20.
An important proportion of neurodevelopmental disorders (NDDs) results from unbalanced genomic alterations (duplication or deletion). These chromosomal rearrangements may be considered as de novo, despite they arise as a result of a balanced rearrangement not detected in a phenotypically normal parent. Therefore, if the rearrangements are inherited, the recurrence risk and the genetic counseling of these cases change radically. Fluorescence in situ hybridization (FISH) is a technique that allows detecting both balanced and unbalanced rearrangements, identifying also the location of duplicated segments. We tried to locate in the genome the duplicated segments detected in patients with NDDs in order to identify those cases due to inherited rearrangements.
The study was conducted in 13 patients with NDDs and genomic duplications detected by compared genomic hybridization-array (CGH-array). Two approaches of FISH technique were taken: hybridization with painting chromosome probes and with specific probes for each duplication.
In the studied series of 13 patients with duplication, 11 patients were found to carry tandem duplications, one with an intrachromosomal insertional translocation, and another with an interchromosomal insertional translocation. Therefore, 2 of the duplications considered de novo were actually an unbalanced rearrangement inherited from a parent who is a balanced carrier.
The results illustrate the need to characterize by FISH technique the rearrangements that are detected by CGH-array to identify those cases with a high risk of recurrence.
相当一部分神经发育障碍(NDDs)是由基因组改变失衡(重复或缺失)引起的。这些染色体重排可能被视为新发的,尽管它们是由表型正常的父母未检测到的平衡重排导致的。因此,如果重排是遗传的,这些病例的复发风险和遗传咨询将发生根本性变化。荧光原位杂交(FISH)是一种能够检测平衡和失衡重排的技术,还能识别重复片段的位置。我们试图在基因组中定位在NDDs患者中检测到的重复片段,以确定那些由遗传重排引起的病例。
该研究对13例经比较基因组杂交阵列(CGH-array)检测出患有NDDs和基因组重复的患者进行。采用了两种FISH技术方法:用染色体涂染探针杂交以及用针对每个重复片段的特异性探针杂交。
在研究的这组13例重复患者中,发现11例携带串联重复,1例有染色体内插入易位,另1例有染色体间插入易位。因此,原本被认为是新发的2个重复实际上是从作为平衡携带者的父母那里遗传而来的失衡重排。
结果表明需要通过FISH技术对CGH-array检测到的重排进行特征分析,以识别那些具有高复发风险的病例。
