Department of Immunology, Genetics and Pathology, The Rudbeck Laboratory and Science for Life Laboratory, Uppsala University, 751 85 Uppsala, Sweden.
Department of Immunology, Genetics and Pathology, The Rudbeck Laboratory and Science for Life Laboratory, Uppsala University, 751 85 Uppsala, Sweden; Department of General and Molecular Genetics, National Taras Shevchenko University of Kyiv, Kiev 03680, Ukraine.
Am J Hum Genet. 2011 Jun 10;88(6):852-860. doi: 10.1016/j.ajhg.2011.05.013.
Inherited and isolated nail malformations are rare and heterogeneous conditions. We identified two consanguineous pedigrees in which some family members were affected by isolated nail dysplasia that suggested an autosomal-recessive inheritance pattern and was characterized by claw-shaped nails, onychauxis, and onycholysis. Genome-wide SNP array analysis of affected individuals from both families showed an overlapping and homozygous region of 800 kb on the long arm of chromosome 8. The candidate region spans eight genes, and DNA sequence analysis revealed homozygous nonsense and missense mutations in FZD(6), the gene encoding Frizzled 6. FZD(6) belongs to a family of highly conserved membrane-bound WNT receptors involved in developmental processes and differentiation through several signaling pathways. We expressed the FZD(6) missense mutation and observed a quantitative shift in subcellular distribution from the plasma membrane to the lysosomes, where the receptor is inaccessible for signaling and presumably degraded. Analysis of human fibroblasts homozygous for the nonsense mutation showed an aberrant response to both WNT-3A and WNT-5A stimulation; this response was consistent with an effect on both canonical and noncanonical WNT-FZD signaling. A detailed analysis of the Fzd(6)(-/-) mice, previously shown to have an altered hair pattern, showed malformed claws predominantly of the hind limbs. Furthermore, a transient Fdz6 mRNA expression was observed in the epidermis of the digital tips at embryonic day 16.5 during early claw morphogenesis. Thus, our combined results show that FZD6 mutations can result in severe defects in nail and claw formation through reduced or abolished membranous FZD(6) levels and several nonfunctional WNT-FZD pathways.
遗传性和孤立性指甲畸形是罕见且具有异质性的疾病。我们鉴定了两个有亲缘关系的家系,其部分成员受孤立性指甲发育不良的影响,表现为爪形指甲、甲床角化过度和甲分离,提示常染色体隐性遗传模式。对两个家系中受影响个体的全基因组 SNP 微阵列分析显示,8 号染色体长臂上存在一个重叠的纯合区域,大小为 800 kb。候选区域跨越八个基因,DNA 序列分析显示 FZD6(编码 Frizzled 6 的基因)存在纯合无义和错义突变。FZD6 属于高度保守的膜结合 WNT 受体家族,通过几种信号通路参与发育过程和分化。我们表达了 FZD6 的错义突变,并观察到其亚细胞分布从质膜定量转移到溶酶体,在溶酶体中受体无法进行信号转导,推测会被降解。对纯合无义突变的人成纤维细胞进行分析,发现其对 WNT-3A 和 WNT-5A 的刺激均表现出异常反应;这一反应与经典和非经典的 WNT-FZD 信号通路均受影响一致。对先前表现出毛发模式改变的 Fzd6(-/-) 小鼠进行的详细分析显示,后肢的爪子畸形较为明显。此外,在爪形态发生的早期,即胚胎第 16.5 天,在指尖的表皮中观察到短暂的 Fdz6 mRNA 表达。因此,我们的综合结果表明,FZD6 突变可通过降低或消除膜 FZD6 水平以及几种无功能的 WNT-FZD 通路,导致指甲和爪子形成严重缺陷。