Department of Stomatology, The First Affiliated Hospital of Harbin Medical University, Harbin, China.
Laboratory of Longjiang Scholar, The First Affifiliated Hospital of Harbin Medical University, Harbin, China.
J Cell Physiol. 2023 Nov;238(11):2556-2569. doi: 10.1002/jcp.31105. Epub 2023 Sep 12.
Family with sequence similarity 20-member C (FAM20C) is a kinase specific to most of the secreted phosphoproteome. FAM20C has been identified as the causative gene of Raine syndrome, initially characterized by lethal osteosclerosis bone dysplasia. However, since the identification of the cases of nonlethal Raine syndrome characterized by hypophosphatemia rickets, the previous definition of Raine syndrome has become debatable and raised a question about the role of mutations of FAM20C in controversial skeletal manifestation in the two forms of the disease. In this study, we aimed to investigate the influence of FAM20C mutations on skeletogenesis. We developed transgenic mice expressing Fam20c mutations mimicking those associated with human lethal and nonlethal Raine syndrome. The results revealed that transgenic mice expressing the mutant Fam20c found in the lethal (KO;G374R) and nonlethal (KO;D446N) Raine syndrome exhibited osteomalacia without osteosclerotic features. Additionally, both mutants significantly increased the expression of the Fgf23, indicating that Fam20c deficiency in skeletal compartments causes hypophosphatemia rickets. Furthermore, as FAM20C kinase activity catalyzes the phosphorylation of secreted proteomes other than those in the skeletal system, global FAM20C deficiency may trigger alterations in other systems resulting in osteosclerosis secondary to hypophosphatemia rickets. Together, the findings of this study suggest that FAM20C deficiency primarily causes hypophosphatemia rickets or osteomalacia; however, the heterogeneous skeletal manifestation in Raine syndrome was not determined solely by specific mutations of FAM20C. The findings also implicated that rickets or osteomalacia caused by FAM20C deficiency would deteriorate into osteosclerosis by the defects from other systems or environmental impacts.
家族性骨骼 20 号成员 C(FAM20C)是一种特异性作用于大多数分泌磷酸化蛋白组的激酶。FAM20C 已被鉴定为 Raine 综合征的致病基因,其最初特征为致命性骨质硬化性骨发育不良。然而,自从确定了具有低磷血症性佝偻病的非致死性 Raine 综合征病例后,以前对 Raine 综合征的定义就变得有争议了,并对 FAM20C 突变在这两种疾病的争议性骨骼表现中的作用提出了质疑。在这项研究中,我们旨在研究 FAM20C 突变对骨骼形成的影响。我们开发了表达模拟与人类致命性和非致命性 Raine 综合征相关突变的 Fam20c 的转基因小鼠。结果表明,表达致命性(KO;G374R)和非致命性(KO;D446N)Raine 综合征中发现的突变 Fam20c 的转基因小鼠表现出软骨病而没有骨质硬化特征。此外,这两种突变都显著增加了 Fgf23 的表达,表明骨骼部位 Fam20c 的缺乏会导致低磷血症性佝偻病。此外,由于 FAM20C 激酶活性催化了除骨骼系统之外的分泌蛋白组的磷酸化,全身 Fam20c 缺乏可能会引发其他系统的改变,从而导致低磷血症性佝偻病继发的骨质硬化。总之,这项研究的结果表明, Fam20c 的缺乏主要导致低磷血症性佝偻病或软骨病;然而,Raine 综合征中不同的骨骼表现并不仅仅由 FAM20C 的特定突变决定。研究结果还表明,由 Fam20c 缺乏引起的佝偻病或软骨病会因其他系统或环境影响的缺陷而恶化为骨质硬化。
