跨膜蛋白 53 颅骨干骺发育不良（OMIM#619727）：这种新疾病的骨骼疾病和随之而来的失明。

Center for Metabolic Bone Disease and Molecular Research, Shriners Hospitals for Children-St. Louis, St. Louis, MO 63110, USA; Division of Bone and Mineral Diseases, Department of Internal Medicine, Washington University School of Medicine, St. Louis, MO 63110, USA.

Division of Endocrinology, Metabolic Bone Diseases, University of Arkansas for Medical Sciences, Little Rock, AR 72205, USA.

Bone. 2024 Nov;188:117218. doi: 10.1016/j.bone.2024.117218. Epub 2024 Jul 30.

Craniotubular dysplasia, Ikegawa type (OMIM #619727) denotes the autosomal recessive skeletal disease identified in 2021 featuring blindness acquired in childhood. Five young members of four Indian families harbored a homozygous indel within TMEM53 (OMIM *619722), the gene that encodes transmembrane protein 53 (TMEM53). When intact, TMEM53 spans the nuclear envelope of osteoprogenitor cells, dampens BMP-SMAD signaling, and thereby slows bone formation. Consequently, defective TMEM53 accelerates osteogenesis. Herein, an American boy is compound heterozygous for a novel deletion and a novel missense mutation within TMEM53. His vision and sensorineural hearing became impaired. Radiographic survey revealed diploic thickening of his skull, broad calvarial and facial bones, skeletal modeling errors, vertebral body flattening, wide ribs, and osteopenia of expanded bones. DXA areal bone density (gm/cm) Z-scores were low. His optic, auditory, and spinal canals were narrow. Mineral metabolism was intact. Serum alkaline phosphatase and osteocalcin levels were normal yet CTX was high. Iliac crest histomorphometry documented accelerated bone formation. His acute vision loss briefly improved following prednisone administration, optic canal decompression, and optic nerve sheath fenestration, but then progressed despite further surgeries and zoledronate treatment aimed to suppress bone turnover. Next generation sequencing of genes associated with elevated skeletal mass, including from high bone turnover, did not suggest an etiology. Whole genome sequencing then revealed within TMEM53: i) a paternally transmitted 54-base deletion, which included the mRNA splice acceptor site for exon 2 as well as 31 bases of exonic sequence (c. 62-23_92del), and ii) a maternally transmitted missense variant (c.650C > T, p.Ser217Leu: NM_024587.4/NP_078863.2) which is extremely rare in gnomAD (frequency = 0.000036), replaces Ser217 highly conserved across species, and is scored as damaging by SIFT and Mutation Taster. We call this new osteopathy TMEM53 craniotubular dysplasia.

伊贺川型颅骨干骺发育不良（OMIM #619727）是一种常染色体隐性骨骼疾病，于 2021 年发现，患者在儿童时期出现获得性失明。四个印度家庭的五名年轻成员均携带 TMEM53（OMIM *619722）基因中的纯合缺失/插入，该基因编码跨膜蛋白 53（TMEM53）。当 TMEM53 完整时，它横跨成骨祖细胞的核膜，抑制 BMP-SMAD 信号转导，从而减缓骨形成。因此，功能缺陷的 TMEM53 会加速成骨。本文报道了一名美国男孩，他同时携带 TMEM53 基因中的一个新缺失和一个新错义突变，为复合杂合突变。他的视力和感觉神经性听力受损。影像学检查显示他的颅骨呈双层增厚，颅骨和面部宽大，骨骼塑形错误，椎体扁平，肋骨变宽，扩张骨骨质疏松。双能 X 线吸收法（DXA）骨密度（克/厘米）Z 评分较低。他的视神经、听神经和椎管狭窄。矿物质代谢正常。血清碱性磷酸酶和骨钙素水平正常，但 CTX 升高。髂嵴组织形态计量学显示骨形成加速。他的急性视力丧失在泼尼松治疗、视神经管减压和视神经鞘开窗术后短暂改善，但随后进展，尽管进一步手术和唑来膦酸盐治疗以抑制骨转换，但仍持续进展。与高骨量相关的基因（包括高骨转换）的下一代测序未提示病因。全基因组测序随后在 TMEM53 中发现：i）一条来自父系的 54 碱基缺失，包含外显子 2 的 mRNA 剪接受体位点和 31 个外显子序列碱基（c.62-23_92del），以及 ii）一条来自母系的错义变异（c.650C>T，p.Ser217Leu：NM_024587.4/NP_078863.2），该变异在 gnomAD 中极为罕见（频率=0.000036），替换了高度保守的丝氨酸 217，且被 SIFT 和 Mutation Taster 评为有害。我们将这种新的骨病命名为 TMEM53 颅骨干骺发育不良。