Bilguvar Kaya, Bydon Mohamad, Bayrakli Fatih, Ercan-Sencicek A Gulhan, Bayri Yasar, Mason Christopher, DiLuna Michael L, Seashore Margretta, Bronen Richard, Lifton Richard P, State Matthew, Gunel Murat
Program on Neurogenetics, Yale University School of Medicine, New Haven, Connecticut 06510, USA.
J Neurosurg. 2007 Dec;107(6 Suppl):495-9. doi: 10.3171/PED-07/12/495.
Greig cephalopolysyndactyly syndrome (GCPS) is one of a spectrum of overlapping clinical syndromes resulting from mutations in the gene GLI3 on chromosome 7p. Cerebral cavernous malformation (CCM) is caused by mutations in three distinct genes, including Malcavernin (CCM2), which also maps to chromosome 7p and is located 2.8 Mbp from GLI3. The authors describe a new syndrome that combines the vascular lesions characteristic of CCM with the hallmarks of GCPS, including polydactyly, hypertelorism, and developmental delay.
The authors used high-resolution array-based comparative genome hybridization (CGH) analysis to characterize the 3 million-bp deletion on chromosome 7 that accounts for this novel clinical presentation. A 4-year-old girl presented with polydactyly, hypertelorism, and developmental delay and was also found to have multiple CCMs after suffering a seizure. RESULTS. Genetic analysis using array-based CGH revealed a deletion affecting multiple genes in the 7p14-13 locus, the interval that includes both CCM2 and GLI3. Quantitative real-time polymerase chain reaction (RT-PCR) on genomic DNA confirmed this genomic lesion.
A novel syndrome, combining features of CCM and GCPS, can be added to the group of entities that result from deleterious genetic variants involving GLI3, including GCPS, acrocallosal syndrome, Pallister-Hall syndrome, and contiguous gene syndrome. The deletion responsible for this new entity can be easily detected using either array-based chromosomal analysis or quantitative RT-PCR.
Greig头多指并指综合征(GCPS)是由7号染色体短臂上GLI3基因突变导致的一系列重叠临床综合征之一。脑海绵状血管畸形(CCM)由三个不同基因的突变引起,其中包括Malcavernin(CCM2),该基因也定位于7号染色体短臂,与GLI3相距2.8兆碱基对。作者描述了一种新综合征,其将CCM的血管病变特征与GCPS的特征相结合,包括多指畸形、眼距过宽和发育迟缓。
作者使用基于高分辨率阵列的比较基因组杂交(CGH)分析来鉴定7号染色体上导致这种新临床表现的300万碱基对缺失。一名4岁女孩表现出多指畸形、眼距过宽和发育迟缓,在癫痫发作后还被发现患有多处CCM。结果:基于阵列的CGH基因分析显示7p14 - 13位点存在影响多个基因的缺失,该区间同时包含CCM2和GLI3。对基因组DNA进行定量实时聚合酶链反应(RT-PCR)证实了这一基因组病变。
一种结合了CCM和GCPS特征的新综合征可被添加到由涉及GLI3的有害基因变异导致的疾病组中,这些疾病包括GCPS、胼胝体发育不全综合征、帕利斯特 - 霍尔综合征和相邻基因综合征。使用基于阵列的染色体分析或定量RT-PCR可以轻松检测到导致这种新疾病的缺失。
