INSERM U-781, Hôpital Necker-Enfants Malades, Paris, France.
Hum Mutat. 2010 Oct;31(10):1134-41. doi: 10.1002/humu.21329.
Rare lethal disease gene identification remains a challenging issue, but it is amenable to new techniques in high-throughput sequencing (HTS). Cerebral proliferative glomeruloid vasculopathy (PGV), or Fowler syndrome, is a severe autosomal recessive disorder of brain angiogenesis, resulting in abnormally thickened and aberrant perforating vessels leading to hydranencephaly. In three multiplex consanguineous families, genome-wide SNP analysis identified a locus of 14 Mb on chromosome 14. In addition, 280 consecutive SNPs were identical in two Turkish families unknown to be related, suggesting a founder mutation reducing the interval to 4.1 Mb. To identify the causative gene, we then specifically enriched for this region with sequence capture and performed HTS in a proband of seven families. Due to technical constraints related to the disease, the average coverage was only 7×. Nonetheless, iterative bioinformatic analyses of the sequence data identified mutations and a large deletion in the FLVCR2 gene, encoding a 12 transmembrane domain-containing putative transporter. A striking absence of alpha-smooth muscle actin immunostaining in abnormal vessels in fetal PGV brains, suggests a deficit in pericytes, cells essential for capillary stabilization and remodeling during brain angiogenesis. This is the first lethal disease-causing gene to be identified by comprehensive HTS of an entire linkage interval.
罕见致死性疾病基因的鉴定仍然是一个具有挑战性的问题,但高通量测序(HTS)新技术为此提供了可能。脑弥漫性增生性血管球样变(PGV),又称福勒综合征,是一种严重的常染色体隐性脑血管生成障碍,导致异常增厚和异常穿透血管,导致无脑畸形。在三个多发性近亲家族中,全基因组 SNP 分析在 14 号染色体上确定了一个 14Mb 的基因座。此外,在两个土耳其家族中,280 个连续的 SNP 完全相同,这两个家族彼此并不知晓存在亲缘关系,提示存在一个导致疾病的起始突变,将间隔缩小至 4.1Mb。为了鉴定致病基因,我们用序列捕获技术专门对该区域进行富集,并对来自七个家族的先证者进行 HTS。由于与疾病相关的技术限制,平均覆盖率仅为 7×。尽管如此,对序列数据进行迭代生物信息学分析,确定了 FLVCR2 基因中的突变和大片段缺失,该基因编码一个含有 12 个跨膜结构域的假定转运蛋白。在胎儿 PGV 脑异常血管中,平滑肌肌动蛋白免疫染色明显缺失,提示周细胞缺陷,而周细胞在脑血管生成过程中对毛细血管的稳定和重塑至关重要。这是通过对整个连锁间隔进行全面 HTS 鉴定的第一个致死性疾病致病基因。
