引起ucmd的COL6A1 (c。930 + 189 c

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
C. Freiburg, Herimela Solomon-Degefa, Patrick Freiburg, Matthias Mörgelin, Véronique Bolduc, Sebastian Schmitz, Pierpaolo Ala, Francesco Muntoni, E. Behrmann, Carsten G. Bönnemann, A. Schiavinato, Mats Paulsson, R. Wagener
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引用次数: 0

摘要

胶原蛋白VI是胶原蛋白家族中一个独特的成员。它的组装是一个复杂的多步骤过程,这个过程的脆弱性表现在肌肉疾病中。COL6A1、COL6A2和COL6A3的突变导致严重的Ullrich先天性肌营养不良(UCMD)和一系列不同严重程度的疾病,包括较轻的Bethlem肌营养不良。最近在COL6A1中发现的显性内含子突变(c.930+189C>T)导致外显子11和外显子12之间的假外显子的部分框内插入。假外显子在三螺旋的N末端区域被翻译成24个氨基酸残基,并导致典型的G-X-Y基序的中断。这种反复发生的从头突变导致UCMD,并在生命的第一个十年内严重进展。在这里,我们证明了突变特异性抗体在患者肌肉的肌内膜中检测到与野生型胶原VI共定位的突变链。令人惊讶的是,在患者真皮成纤维细胞的细胞培养中,突变链作为单个α链分泌,而平行地,正常的胶原VI四聚体与野生型α1链组装。突变链不能结合到VI型胶原四聚体中,而是在细胞外基质中形成大的聚集体,其可以保留与VI型胶原以及潜在地与其他分子相互作用的能力。此外,用突变体α1链转染的α1链缺陷的WI-26 VA4细胞不组装胶原VI四聚体,而是形成聚集体。有趣的是,当在没有α2和α3链的情况下在HEK293细胞中表达时,野生型和突变单α1链都形成无定形聚集体。聚集的、组装不全的、突变的胶原VIα1链的检测为具有COL6A1(c.930+189 c>T)突变的UCMD患者的疾病病理生理学提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The UCMD-Causing COL6A1 ( c . 930 + 189 C
Collagen VI is a unique member of the collagen family. Its assembly is a complex multistep process and the vulnerability of the process is manifested in muscular diseases. Mutations in COL6A1, COL6A2, and COL6A3 lead to the severe Ullrich Congenital Muscular Dystrophy (UCMD) and a spectrum of disease of varying severity including the milder Bethlem muscular dystrophy. The recently identified dominant intronic mutation in COL6A1 ( c . 930 + 189 C > T ) leads to the partial in-frame insertion of a pseudoexon between exon 11 and exon 12. The pseudoexon is translated into 24 amino acid residues in the N-terminal region of the triple helix and results in the interruption of the typical G-X-Y motif. This recurrent de novo mutation leads to UCMD with a severe progression within the first decade of life. Here, we demonstrate that a mutation-specific antibody detects the mutant chain colocalizing with wild type collagen VI in the endomysium in patient muscle. Surprisingly, in the cell culture of patient dermal fibroblasts, the mutant chain is secreted as a single α chain, while in parallel, normal collagen VI tetramers are assembled with the wild-type α1 chain. The mutant chain cannot be incorporated into collagen VI tetramers but forms large aggregates in the extracellular matrix that may retain the ability to interact with collagen VI and potentially with other molecules. Also, α1 chain-deficient WI-26 VA4 cells transfected with the mutant α1 chain do not assemble collagen VI tetramers but, instead, form aggregates. Interestingly, both the wild type and the mutant single α1 chains form amorphous aggregates when expressed in HEK293 cells in the absence of α2 and α3 chains. The detection of aggregated, assembly incompetent, mutant collagen VI α1 chains provides novel insights into the disease pathophysiology of UCMD patients with the COL6A1 ( c . 930 + 189 C > T ) mutation.
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CiteScore
7.20
自引率
4.30%
发文量
567
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