Connolly Anne M, Keeling Richard M, Streif Elizabeth M, Pestronk Alan, Mehta Shobhna
Department of Neurology, Washington University School of Medicine, 660 S. Euclid Ave., St. Louis, MO 63110, USA.
J Neuroimmunol. 2002 Jun;127(1-2):80-7. doi: 10.1016/s0165-5728(02)00104-2.
Complement deposition and macrophages are common in biopsies of children with muscular dystrophy. While the presumed roles of complement and macrophages have been those of scavenger to remove and clear necrotic fibers, there is some evidence that they play a primary role in the pathogenesis of these diseases. Here, we explore the role of complement in the pathogenesis of the most severe animal model of congenital dystrophy, the dy-/- mouse, which is laminin alpha2-deficient. We generated animals deficient in both C3 and laminin alpha2. C3 is the third component of the complement cascade and is required for activation of either the classical or alternative pathways. Thirty-three percent of the dy-/-:C3+ mice (n=59) died before 24 weeks while only 14% of the dy-/-:C3-/- (n=29) mice died (p=0.04). Absolute forepaw strength was 25-30% greater for the dy-/-:C3-/- mice up to 20 weeks of age (p<0.05 compared to complement-sufficient). Forepaw strength adjusted for weight also showed significant differences with C3-/- mice being stronger up to 20 weeks (p<0.05). However, by 24 weeks, the two groups did not differ for strength. Next, we treated 20 mice with twice weekly oral prednisolone. Survival at 24 weeks for the prednisolone treated dy-/- mice (C3-/- or C3+) was 90% (p=0.04). This work shows that complement insufficiency and weekly prednisone prolong survival and improve strength of the laminin alpha2-deficient mouse. This work suggests that the complement system may contribute directly to the pathogenesis of this form of dystrophy. Because complement activity may be modified pharmacologically, this work may have implications for treatment of children with congenital muscular dystrophy secondary to laminin alpha2 deficiency.
补体沉积和巨噬细胞在肌营养不良症患儿的活检组织中很常见。虽然补体和巨噬细胞的假定作用是作为清除剂来清除坏死纤维,但有一些证据表明它们在这些疾病的发病机制中起主要作用。在此,我们探讨补体在先天性肌营养不良最严重动物模型dy-/-小鼠(缺乏层粘连蛋白α2)发病机制中的作用。我们培育了同时缺乏C3和层粘连蛋白α2的动物。C3是补体级联反应的第三个成分,是经典途径或替代途径激活所必需的。33%的dy-/-:C3+小鼠(n = 59)在24周前死亡,而dy-/-:C3-/-小鼠(n = 29)只有14%死亡(p = 0.04)。直到20周龄,dy-/-:C3-/-小鼠的绝对前爪力量比dy-/-:C3+小鼠大25 - 30%(与补体充足的小鼠相比,p < 0.05)。根据体重调整后的前爪力量在C3-/-小鼠20周龄前也显示出显著差异,C3-/-小鼠更强壮(p < 0.05)。然而,到24周时,两组在力量方面没有差异。接下来,我们给20只小鼠每周口服两次泼尼松龙。泼尼松龙治疗的dy-/-小鼠(C3-/-或C3+)在24周时的存活率为90%(p = 0.04)。这项研究表明补体不足和每周使用泼尼松可延长缺乏层粘连蛋白α2小鼠寿命并改善其力量。这项研究表明补体系统可能直接参与这种形式的肌营养不良症的发病机制。由于补体活性可以通过药物进行调节,这项研究可能对治疗因层粘连蛋白α2缺乏继发的先天性肌营养不良症患儿具有启示意义。
