Sirleto Pietro, Surace Cecilia, Santos Helena, Bertini Enrico, Tomaiuolo Anna C, Lombardo Antonietta, Boenzi Sara, Bevivino Elsa, Dionisi-Vici Carlo, Angioni Adriano
Cytogenetics and Molecular Genetics, Bambino Gesù Children's Hospital, Roma 00165, Italy.
Pediatr Res. 2009 Mar;65(3):347-51. doi: 10.1203/PDR.0b013e3181973b4e.
Menkes disease (MD) is a rare and severe X-linked recessive disorder of copper metabolism. The MD gene, ATP7A (ATPase Cu++ transporting alpha polypeptide), encodes an ATP-dependent copper-binding membrane protein. In this report, we describe a girl with typical clinical features of MD, carrying a balanced translocation between the chromosomes X and 16 producing the disruption of one copy of ATP7A gene and the silencing of the other copy because of the chromosome X inactivation. Fluorescence in situ hybridization experiments with bacterial derived artificial chromosome probes revealed that the breakpoints were located within Xq13.3 and 16p11.2. Replication pattern analysis demonstrated that the normal X chromosome was late replicating and consequently inactivated, whereas the der(X)t(X;16), bearing the disrupted ATP7A gene, was active. An innovative approach, based on FMR1 (fragile X mental retardation 1) gene polymorphism, has been used to disclose the paternal origin of the rearrangement providing a new diagnostic tool for determining the parental origin of defects involving the X chromosome and clarifying the mechanism leading to the cytogenetic rearrangement that occurred in our patient.
门克斯病(MD)是一种罕见且严重的X连锁隐性铜代谢紊乱疾病。MD基因,即ATP7A(ATP酶铜离子转运α多肽),编码一种依赖ATP的铜结合膜蛋白。在本报告中,我们描述了一名具有典型MD临床特征的女孩,她的X染色体和16号染色体之间存在平衡易位,导致一个ATP7A基因拷贝被破坏,另一个拷贝因X染色体失活而沉默。使用细菌人工染色体探针进行的荧光原位杂交实验表明,断点位于Xq13.3和16p11.2内。复制模式分析表明,正常的X染色体复制较晚,因此失活,而携带被破坏的ATP7A基因的der(X)t(X;16)是活跃的。一种基于FMR1(脆性X智力低下1)基因多态性的创新方法已被用于揭示重排的父系起源,为确定涉及X染色体的缺陷的亲本起源以及阐明导致我们患者发生细胞遗传学重排的机制提供了一种新的诊断工具。