Gehrig Stefan M, van der Poel Chris, Hoeflich Andreas, Naim Timur, Lynch Gordon S, Metzger Friedrich
Basic and Clinical Myology Laboratory, Department of Physiology, The University of Melbourne, Victoria 3010, Australia.
Growth Horm IGF Res. 2012 Apr;22(2):69-75. doi: 10.1016/j.ghir.2012.02.004. Epub 2012 Mar 15.
Duchenne muscular dystrophy (DMD) is a fatal monogenetic disease with affected males displaying severe and progressive muscle wasting and weakness eventually leading to premature death. Possible therapeutic benefits of insulin-like growth factor I (IGF-I) have been studied extensively in various models of muscle disease and DMD with IGF-I as a mediator of improved skeletal muscle regeneration by enhancing myoblast proliferation and differentiation.
We tested the efficacy of a novel IGF-I analogue, a polyethylene glycol modified IGF-I (PEG-IGF-I), to ameliorate the pathophysiology of muscular dystrophy in two mouse models of DMD. We used mdx mice which lack dystrophin (as in DMD) but exhibit only a relatively mild phenotype, and the dko mouse which is a transgenic model lacking utrophin in addition to dystrophin, and which exhibits a more severe, lethal phenotype like that in DMD.
In young mdx mice, twice-weekly PEG-IGF-I s.c. injections for 6 weeks protected the diaphragm muscle against fatigue and the tibialis anterior (TA) muscle against contraction-induced injury. However, this beneficial effect of PEG-IGF-I was less pronounced in mdx mice when treatment was initiated later in adulthood. In severely affected dko mice PEG-IGF-I treatment did not affect pathophysiological parameters including animal survival.
These data suggest a therapeutic benefit with PEG-IGF-I treatment only in mild muscle pathologies, since its potential to ameliorate the pathophysiology in models of severe muscular dystrophies was limited. Treatment should be initiated only for mild muscle pathologies if functional benefits are to be realised and therefore may be relevant as a short-term therapy to hasten the functional repair of otherwise healthy muscles after injury.
杜氏肌营养不良症(DMD)是一种致命的单基因疾病,患病男性表现出严重且进行性的肌肉萎缩和无力,最终导致过早死亡。胰岛素样生长因子I(IGF-I)的潜在治疗益处已在各种肌肉疾病模型和DMD中得到广泛研究,IGF-I作为通过增强成肌细胞增殖和分化来改善骨骼肌再生的介质。
我们测试了一种新型IGF-I类似物,即聚乙二醇修饰的IGF-I(PEG-IGF-I),在两种DMD小鼠模型中改善肌营养不良病理生理的疗效。我们使用了缺乏抗肌萎缩蛋白的mdx小鼠(如同在DMD中一样),但其仅表现出相对较轻的表型,以及dko小鼠,它是一种除了缺乏抗肌萎缩蛋白外还缺乏肌养蛋白的转基因模型,表现出更严重的、致命的表型,类似于DMD中的情况。
在年轻的mdx小鼠中,每周两次皮下注射PEG-IGF-I,持续6周,可保护膈肌免受疲劳影响,并保护胫前肌免受收缩诱导的损伤。然而,当在成年后期开始治疗时,PEG-IGF-I在mdx小鼠中的这种有益作用不太明显。在严重受影响的dko小鼠中,PEG-IGF-I治疗不影响包括动物存活在内的病理生理参数。
这些数据表明,PEG-IGF-I治疗仅在轻度肌肉病变中具有治疗益处,因为其改善严重肌营养不良模型病理生理的潜力有限。如果要实现功能益处,仅应针对轻度肌肉病变开始治疗,因此作为一种短期治疗可能与加速损伤后原本健康肌肉的功能修复相关。
