缺乏merosin的先天性肌营养不良。两种小鼠模型中的部分基因校正。
Merosin-deficient congenital muscular dystrophy. Partial genetic correction in two mouse models.
作者信息
Kuang W, Xu H, Vachon P H, Liu L, Loechel F, Wewer U M, Engvall E
机构信息
The Burnham Institute, La Jolla Cancer Research Center, La Jolla, California 92037, USA.
出版信息
J Clin Invest. 1998 Aug 15;102(4):844-52. doi: 10.1172/JCI3705.
Abstract
Humans and mice with deficiency of the alpha2 subunit of the basement membrane protein laminin-2/merosin suffer from merosin-deficient congenital muscular dystrophy (MCMD). We have expressed a human laminin alpha2 chain transgene under the regulation of a muscle-specific creatine kinase promoter in mice with complete or partial deficiency of merosin. The transgene restores the synthesis and localization of merosin in skeletal muscle, and greatly improves muscle morphology and integrity and the health and longevity of the mice. However, the transgenic mice share with the nontransgenic dystrophic mice a progressive lameness of hind legs, suggestive of a nerve defect. These results indicate that the absence of merosin in tissues other than the muscle, such as nervous tissue, is a critical component of MCMD. Future gene therapies of human MCMD, and perhaps of other forms of muscular dystrophy, may require restoration of the defective gene product in multiple tissues.
摘要
缺乏基底膜蛋白层粘连蛋白-2/巢蛋白α2亚基的人类和小鼠患有巢蛋白缺乏型先天性肌营养不良症(MCMD)。我们在肌肉特异性肌酸激酶启动子的调控下,在完全或部分缺乏巢蛋白的小鼠中表达了人层粘连蛋白α2链转基因。该转基因恢复了巢蛋白在骨骼肌中的合成和定位,并极大地改善了肌肉形态和完整性以及小鼠的健康和寿命。然而,转基因小鼠与非转基因营养不良小鼠一样,后腿逐渐出现跛行,提示存在神经缺陷。这些结果表明,除肌肉外的其他组织(如神经组织)中巢蛋白的缺失是MCMD的关键组成部分。未来对人类MCMD以及可能对其他形式肌营养不良症的基因治疗,可能需要在多个组织中恢复有缺陷的基因产物。
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