对来自肌分化抗原基因缺失小鼠、杜兴氏肌营养不良症小鼠和外周髓鞘蛋白22基因C22突变小鼠的卫星细胞分化潜能的分析。
Analyses of the differentiation potential of satellite cells from myoD-/-, mdx, and PMP22 C22 mice.
作者信息
Schuierer Marion M, Mann Christopher J, Bildsoe Heidi, Huxley Clare, Hughes Simon M
机构信息
Insitute of Pathology, Medical School of the University of Regensburg, Franz-Josef-Strauss-Allee 11, 93053 Regensburg, Germany.
出版信息
BMC Musculoskelet Disord. 2005 Mar 11;6:15. doi: 10.1186/1471-2474-6-15.
BACKGROUND
Sporadic and sometimes contradictory studies have indicated changes in satellite cell behaviour associated with the progressive nature of human Duchenne muscular dystrophy (DMD). Satellite cell proliferation and number are reportedly altered in DMD and the mdx mouse model. We recently found that satellite cells in MSVski transgenic mice, a muscle hypertrophy model showing progressive muscle degeneration, display a severe ageing-related differentiation defect in vitro. We tested the hypothesis that similar changes contribute to the gradual loss of muscle function with age in mdx and PMP22 mice, a model of human motor and sensory neuropathy type 1A (HMSN1A).
METHODS
Single extensor digitorum longus muscle fibres were cultured from mdx and PMP22 mice and age- and genetic background-matched controls. Mice at several ages were compared with regard to the differentiation of satellite cells, assayed as the proportion of desmin-expressing cells that accumulated sarcomeric myosin heavy chain.
RESULTS
Satellite cells of 2 month, 6 month, and 12 month old mdx mice were capable of differentiating to a similar extent to age-matched wild type control animals in an in vitro proliferation/differentiation model. Strikingly, differentiation efficiency in individual 6 month and 12 month old mdx animals varies to a much higher extent than in age-matched controls, younger mdx animals, or PMP22 mice. In contrast, differentiation of myoblasts from all myoD null mice assayed was severely impaired in this assay system. The defect in satellite cell differentiation that occurs in some mdx animals arises from a delay in differentiation that is not overcome by IGF-1 treatment at any phase of cultivation.
CONCLUSION
Overall, a defect in satellite cell differentiation above that arising through normal ageing does not occur in mdx or PMP22 mouse models of human disease. Nonetheless, the impaired differentiation of satellite cells from some mdx animals suggests that additional factors, environmental or epigenetic, may lead to deteriorating muscle repair through poor differentiation of satellite cells in genetically predisposed individuals.
背景
零星且有时相互矛盾的研究表明,卫星细胞行为的变化与人类杜氏肌营养不良症(DMD)的进行性本质相关。据报道,在DMD和mdx小鼠模型中,卫星细胞的增殖和数量发生了改变。我们最近发现,MSVski转基因小鼠(一种表现出进行性肌肉退化的肌肉肥大模型)中的卫星细胞在体外表现出严重的与衰老相关的分化缺陷。我们检验了这样一种假设,即类似的变化导致mdx和PMP22小鼠(一种人类1A型运动和感觉神经病(HMSN1A)模型)随着年龄增长肌肉功能逐渐丧失。
方法
从mdx和PMP22小鼠以及年龄和遗传背景匹配的对照小鼠中培养单个趾长伸肌纤维。比较了几个年龄段小鼠卫星细胞的分化情况,以积累肌节肌球蛋白重链的结蛋白表达细胞的比例来测定。
结果
在体外增殖/分化模型中,2个月、6个月和12个月大的mdx小鼠的卫星细胞能够与年龄匹配的野生型对照动物进行相似程度的分化。令人惊讶的是,个体6个月和12个月大的mdx动物的分化效率变化程度比年龄匹配的对照动物、年轻的mdx动物或PMP22小鼠高得多。相比之下,在该检测系统中,所有检测的myoD基因敲除小鼠的成肌细胞分化均严重受损。一些mdx动物中出现的卫星细胞分化缺陷源于分化延迟,在培养的任何阶段,IGF-1处理都无法克服这种延迟。
结论
总体而言,在人类疾病的mdx或PMP22小鼠模型中,并未出现超出正常衰老导致的卫星细胞分化缺陷。尽管如此,一些mdx动物的卫星细胞分化受损表明,环境或表观遗传等其他因素可能会导致具有遗传易感性的个体中卫星细胞分化不良,从而使肌肉修复能力下降。
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