Mayo S, Monfort S, Roselló M, Orellana C, Oltra S, Armstrong J, Català V, Martínez F
Unidad de Genética y Diagnóstico Prenatal, Hospital Universitario La Fe, Valencia, Spain.
Cytogenet Genome Res. 2011;135(2):93-101. doi: 10.1159/000330917. Epub 2011 Sep 16.
Loss-of-function mutations of the MECP2 gene are the cause of most cases of Rett syndrome in females, a progressive neurodevelopmental disorder characterized by severe mental retardation, global regression, hand stereotypies, and microcephaly. On the other hand, gain of dosage of this gene causes the MECP2 duplication syndrome in males characterized by severe mental retardation, absence of speech development, infantile hypotonia, progressive spasticity, recurrent infections, and facial dysmorphism. Female carriers of a heterozygous duplication show a skewed X-inactivation pattern which is the most probable cause of the lack of clinical symptoms. In this paper, we describe a girl with a complex de novo copy number gain at Xq28 and non-skewed X-inactivation pattern that causes mental retardation and motor and language delay. This rearrangement implies triplication of the MECP2 and IRAK1 genes, but it does not span other proximal genes located in the common minimal region of patients affected by the MECP2 duplication syndrome. We conclude that the triplication leads to a severe phenotype due to random X-inactivation, while the preferential X chromosome inactivation in healthy carriers may be caused by a negative selection effect of the duplication on some proximal genes like ARD1A or HCFC1.
MECP2基因功能丧失突变是大多数女性雷特综合征病例的病因,雷特综合征是一种进行性神经发育障碍,其特征为严重智力迟钝、全面退化、手部刻板动作和小头畸形。另一方面,该基因剂量增加会导致男性MECP2重复综合征,其特征为严重智力迟钝、无语言发育、婴儿期肌张力减退、进行性痉挛、反复感染和面部畸形。杂合重复的女性携带者表现出偏态的X染色体失活模式,这很可能是其缺乏临床症状的原因。在本文中,我们描述了一名女孩,其Xq28存在复杂的新生拷贝数增加且X染色体失活模式无偏态,导致智力迟钝以及运动和语言发育迟缓。这种重排意味着MECP2和IRAK1基因发生了三倍体化,但并未跨越位于受MECP2重复综合征影响患者的常见最小区域中的其他近端基因。我们得出结论,由于随机X染色体失活,三倍体化导致了严重的表型,而健康携带者中优先的X染色体失活可能是由重复对ARD1A或HCFC1等一些近端基因的负选择效应引起的。
