软骨生长板中软骨细胞增殖减少和细胞凋亡失调是由matn3突变引起的骨骺发育异常小鼠模型的关键特征。
Decreased chondrocyte proliferation and dysregulated apoptosis in the cartilage growth plate are key features of a murine model of epiphyseal dysplasia caused by a matn3 mutation.
作者信息
Leighton Matthew P, Nundlall Seema, Starborg Tobias, Meadows Roger S, Suleman Farhana, Knowles Lynette, Wagener Raimund, Thornton David J, Kadler Karl E, Boot-Handford Raymond P, Briggs Michael D
机构信息
Wellcome Trust Centre for Cell-Matrix Research, Faculty of Life Sciences, University of Manchester, Michael Smith Building, Oxford Road, Manchester M13 9PT, UK.
出版信息
Hum Mol Genet. 2007 Jul 15;16(14):1728-41. doi: 10.1093/hmg/ddm121. Epub 2007 May 21.
Abstract
Disruption to endochondral ossification leads to delayed and irregular bone formation and can result in a heterogeneous group of genetic disorders known as the chondrodysplasias. One such disorder, multiple epiphyseal dysplasia (MED), is characterized by mild dwarfism and early-onset osteoarthritis and can result from mutations in the gene encoding matrilin-3 (MATN3). To determine the disease mechanisms that underpin the pathophysiology of MED we generated a murine model of epiphyseal dysplasia by knocking-in a matn3 mutation. Mice that are homozygous for the mutation develop a progressive dysplasia and have short-limbed dwarfism that is consistent in severity with the relevant human phenotype. Mutant matrilin-3 is retained within the rough endoplasmic reticulum of chondrocytes and is associated with an unfolded protein response. Eventually, there is reduced proliferation and spatially dysregulated apoptosis of chondrocytes in the cartilage growth plate, which is likely to be the cause of disrupted linear bone growth and the resulting short-limbed dwarfism in the mutant mice.
摘要
软骨内成骨的破坏会导致骨形成延迟和不规则,并可能导致一组称为软骨发育不全的遗传性疾病。其中一种疾病,多发性骨骺发育不良(MED),其特征为轻度侏儒症和早发性骨关节炎,可能由编码matrilin-3(MATN3)的基因突变引起。为了确定支撑MED病理生理学的疾病机制,我们通过敲入matn3突变生成了一种骨骺发育不良的小鼠模型。该突变的纯合子小鼠会出现进行性发育不良,并具有短肢侏儒症,其严重程度与相关人类表型一致。突变的matrilin-3保留在软骨细胞的粗面内质网中,并与未折叠蛋白反应相关。最终,软骨生长板中的软骨细胞增殖减少且凋亡在空间上失调,这可能是突变小鼠线性骨生长中断和由此导致短肢侏儒症的原因。
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