Mumm Steven, Paz-Ibarra José L, Campeau Philippe M, Garrido-Carrasco Elizabeth, Baker Jonathan C, Pino-Nina Ethel, Duan Shenghui, McAlister William H, Whyte Michael P
Division of Bone and Mineral Diseases, Department of Internal Medicine, Washington University School of Medicine, St Louis, MO 63110, USA; Center for Metabolic Bone Disease and Molecular Research, Shriners Hospitals for Children-St. Louis, St. Louis, MO 63110, USA.
Department of Endocrinology, Hospital Nacional Edgardo Rebagliati Martins, Lima, Peru; Department of Medicine, Universidad Nacional Mayor de San Marcos, Lima, Peru.
Bone. 2025 Aug;197:117477. doi: 10.1016/j.bone.2025.117477. Epub 2025 Apr 7.
Camurati-Engelmann disease, type 1 (CED1, OMIM # 131300) is the rare autosomal dominant skeletal dysplasia caused by select heterozygous loss-of-function defects within the gene TGFB1, which encodes transforming growth factor beta 1 (TGFB1). CED1 mutations are found in TGFB1 exons 1-4 that form the latency-associated peptide (LAP) of pro-TGFB1. Consequently, skeletal action of TGFB1 increases and thereby enhances bone formation manifest clinically as "progressive diaphyseal dysplasia". Beginning 24 years ago negative TGFB1 analysis suggested rare genetic heterogeneity for CED, and Online Mendelian Inheritance In Man designated, of unknown etiology, "CED2" (OMIM % 606631). In 2024, three sporadic occurrences considered CED2 were reported to harbor either of two mutations of TGFB2, which encodes the LAP of transforming growth factor beta 2 (TGFB2). Herein, three adults (father, son, daughter) having the CED2 phenotype in a Peruvian family revealed a novel missense variant (c.108G > T, p.R36S) within the TGFB2 LAP domain. Debilitating painful skeletal disease featuring hyperostosis of entire long bones, worse in the men, presented early in childhood. Aminobisphosphonate therapy seemed helpful. Their TGFB2 variant was within a highly conserved domain across species, absent in the gnomAD database, "possibly damaging" by Polyphen-2, not tolerated by SIFT, homologous with TGFB1 at the same amino acid position (R36) as one reported TGFB2 mutation, co-segregated as autosomal dominant, and "likely pathogenic" per ACMG guidelines.
1型卡穆拉蒂 - 恩格尔曼病(CED1,OMIM编号#131300)是一种罕见的常染色体显性遗传性骨骼发育不良疾病,由基因TGFB1内特定的杂合性功能丧失缺陷引起,该基因编码转化生长因子β1(TGFB1)。CED1突变存在于TGFB1的外显子1 - 4中,这些外显子构成了前体TGFB1的潜伏相关肽(LAP)。因此,TGFB1的骨骼作用增强,从而促进骨形成,临床上表现为“进行性骨干发育异常”。24年前,TGFB1检测呈阴性表明CED存在罕见的遗传异质性,《人类在线孟德尔遗传》将病因不明的疾病命名为“CED2”(OMIM编号%606631)。2024年,有报道称3例被认为是CED2的散发病例携带TGFB2的两种突变之一,TGFB2编码转化生长因子β2(TGFB2)的LAP。本文中,秘鲁一个家族中有3名具有CED2表型的成年人(父亲、儿子、女儿),在TGFB2的LAP结构域中发现了一个新的错义变体(c.108G>T,p.R36S)。严重的疼痛性骨骼疾病,其特征是整个长骨骨质增生,男性病情更严重,在儿童早期就出现。氨基双膦酸盐治疗似乎有帮助。他们的TGFB2变体位于跨物种高度保守的结构域内,在gnomAD数据库中不存在,Polyphen - 2预测其“可能有害”,SIFT分析显示不耐受,与已报道的一种TGFB2突变在相同氨基酸位置(R36)与TGFB1同源,呈常染色体显性共分离,根据ACMG指南“可能致病”。
