Division of Laboratories, Pharmacy and Biomedical Genetics, University Medical Centre Utrecht, 3584EA Utrecht, the Netherlands.
Center for Molecular Medicine and Oncode Institute, University Medical Centre Utrecht, 3584CG Utrecht, the Netherlands.
Am J Hum Genet. 2023 Sep 7;110(9):1470-1481. doi: 10.1016/j.ajhg.2023.07.011. Epub 2023 Aug 14.
Sclerosing skeletal dysplasias result from an imbalance between bone formation and resorption. We identified three homozygous, C-terminally truncating AXIN1 variants in seven individuals from four families affected by macrocephaly, cranial hyperostosis, and vertebral endplate sclerosis. Other frequent findings included hip dysplasia, heart malformations, variable developmental delay, and hematological anomalies. In line with AXIN1 being a central component of the β-catenin destruction complex, analyses of primary and genome-edited cells harboring the truncating variants revealed enhanced basal canonical Wnt pathway activity. All three AXIN1-truncating variants resulted in reduced protein levels and impaired AXIN1 polymerization mediated by its C-terminal DIX domain but partially retained Wnt-inhibitory function upon overexpression. Addition of a tankyrase inhibitor attenuated Wnt overactivity in the AXIN1-mutant model systems. Our data suggest that AXIN1 coordinates the action of osteoblasts and osteoclasts and that tankyrase inhibitors can attenuate the effects of AXIN1 hypomorphic variants.
骨硬化性骨骼发育不良是由于骨形成和吸收之间的失衡所致。我们在四个受大头畸形、颅面骨增生和椎体终板硬化影响的家庭的七名个体中发现了三个 AXIN1 基因末端截断的纯合变体。其他常见的发现包括髋关节发育不良、心脏畸形、发育迟缓以及血液学异常。AXIN1 是β-catenin 破坏复合物的核心组成部分,因此对携带截断变体的原代和基因组编辑细胞的分析表明,其基础经典 Wnt 通路活性增强。所有三种 AXIN1 截断变体均导致蛋白水平降低,并损害其 C 末端 DIX 结构域介导的 AXIN1 聚合,但在过表达时仍部分保留 Wnt 抑制功能。 tankyrase 抑制剂的添加可减弱 AXIN1 突变模型系统中的 Wnt 过度激活。我们的数据表明,AXIN1 协调成骨细胞和破骨细胞的作用,而 tankyrase 抑制剂可以减弱 AXIN1 功能缺失变体的作用。
