COL1 C-前肽切割位点突变导致高骨量型成骨不全症。

COL1 C-propeptide cleavage site mutations cause high bone mass osteogenesis imperfecta.

机构信息

Department of Medical Sciences, Uppsala University, Uppsala, Sweden.

出版信息

Hum Mutat. 2011 Jun;32(6):598-609. doi: 10.1002/humu.21475. Epub 2011 Apr 7.

DOI:10.1002/humu.21475

PMID:21344539

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3103631/

Abstract

Osteogenesis imperfecta (OI) is most often caused by mutations in the type I procollagen genes (COL1A1/COL1A2). We identified two children with substitutions in the type I procollagen C-propeptide cleavage site, which disrupt a unique processing step in collagen maturation and define a novel phenotype within OI. The patients have mild OI caused by mutations in COL1A1 (Patient 1: p.Asp1219Asn) or COL1A2 (Patient 2: p.Ala1119Thr), respectively. Patient 1 L1-L4 DXA Z-score was +3.9 and pQCT vBMD was+3.1; Patient 2 had L1-L4 DXA Z-score of 0.0 and pQCT vBMD of -1.8. Patient BMD contrasts with radiographic osteopenia and histomorphometry without osteosclerosis. Mutant procollagen processing is impaired in pericellular and in vitro assays. Patient dermal collagen fibrils have irregular borders. Incorporation of pC-collagen into matrix leads to increased bone mineralization. FTIR imaging confirms elevated mineral/matrix ratios in both patients, along with increased collagen maturation in trabecular bone, compared to normal or OI controls. Bone mineralization density distribution revealed a marked shift toward increased mineralization density for both patients. Patient 1 has areas of higher and lower bone mineralization than controls; Patient 2's bone matrix has a mineral content exceeding even classical OI bone. These patients define a new phenotype of high BMD OI and demonstrate that procollagen C-propeptide cleavage is crucial to normal bone mineralization.

摘要

成骨不全症（OI）最常由 I 型前胶原基因（COL1A1/COL1A2）的突变引起。我们鉴定了两例具有 I 型前胶原 C 端肽裂解位点突变的儿童，这些突变破坏了胶原成熟过程中的一个独特加工步骤，并在 OI 中定义了一个新的表型。这两名患者的 OI 由 COL1A1（患者 1：p.Asp1219Asn）或 COL1A2（患者 2：p.Ala1119Thr）突变引起，分别为轻度 OI。患者 1 的 L1-L4 DXA Z 评分是+3.9，pQCT vBMD 是+3.1；患者 2 的 L1-L4 DXA Z 评分为 0.0，pQCT vBMD 为-1.8。患者的 BMD 与影像学上的骨质疏松和组织形态计量学无骨硬化形成形成对比。突变前胶原的加工在细胞周围和体外测定中受到损害。患者真皮胶原纤维具有不规则的边界。pC-胶原的掺入基质会导致骨矿化增加。FTIR 成像证实，与正常或 OI 对照相比，两名患者的矿化/基质比值均升高，小梁骨中的胶原成熟度增加。骨矿化密度分布显示，两名患者的矿化密度均有明显增加。患者 1 的骨矿化密度高于或低于对照组的区域；患者 2 的骨基质的矿化含量甚至超过了经典的 OI 骨。这些患者定义了一种新的高 BMD OI 表型，并证明前胶原 C 端肽裂解对正常骨矿化至关重要。

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