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首页> 美国卫生研究院文献>The FASEB Journal >Disruption of nuclear factor (erythroid-derived-2)–like 2 antioxidant signaling: a mechanism for impaired activation of stem cells and delayed regeneration of skeletal muscle
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Disruption of nuclear factor (erythroid-derived-2)–like 2 antioxidant signaling: a mechanism for impaired activation of stem cells and delayed regeneration of skeletal muscle

机译:破坏核因子(类胡萝卜素-2)之类的2种抗氧化剂信号传导:干细胞活化受损和骨骼肌再生延迟的机制

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Recently we have reported that age-dependent decline in antioxidant levels accelerated apoptosis and skeletal muscle degeneration. Here, we demonstrate genetic ablation of the master cytoprotective transcription factor, nuclear factor (erythroid-derived-2)–like 2 (Nrf2), aggravates cardiotoxin (CTX)-induced tibialis anterior (TA) muscle damage. Disruption of Nrf2 signaling sustained the CTX-induced burden of reactive oxygen species together with compromised expression of antioxidant genes and proteins. Transcript/protein expression of phenotypic markers of muscle differentiation, namely paired box 7 (satellite cell) and early myogenic differentiation and terminal differentiation (myogenin and myosin heavy chain 2) were increased on d 2 and 4 postinjury but later returned to baseline levels on d 8 and 15 in wild-type (WT) mice. In contrast, these responses were persistently augmented in Nrf2-null mice suggesting that regulation of the regeneration-related signaling mechanisms require Nrf2 for normal functioning. Furthermore, Nrf2-null mice displayed slower regeneration marked by dysregulation of embryonic myosin heavy chain temporal expression. Histologic observations illustrated that Nrf2-null mice displayed smaller, immature TA muscle fibers compared with WT counterparts on d 15 after CTX injury. Improvement in TA muscle morphology and gain in muscle mass evident in the WT mice was not noticeable in the Nrf2-null animals. Taken together these data show that the satellite cell activation, proliferation, and differentiation requires a functional Nrf2 system for effective healing following injury.—Shelar, S. B., Narasimhan, M., Shanmugam, G., Litovsky, S. H., Gounder, S. S., Karan, G., Arulvasu, C., Kensler, T. W., Hoidal, J. R., Darley-Usmar, V. M., Rajasekaran, N. S. Disruption of nuclear factor (erythroid-derived-2)–like 2 antioxidant signaling: a mechanism for impaired activation of stem cells and delayed regeneration of skeletal muscle.
机译:最近我们报道抗氧化剂水平的年龄依赖性下降加速了细胞凋亡和骨骼肌变性。在这里,我们证明了主要的细胞保护性转录因子,核因子(类胡萝卜素衍生的2)样2(Nrf2)的遗传消融加剧了心毒素(CTX)引起的胫前肌(TA)肌肉损伤。 Nrf2信号的破坏维持了CTX诱导的活性氧的负担以及抗氧化剂基因和蛋白质的表达受损。损伤后第2天和第4天增加了肌肉分化表型标志物,即配对框7(卫星细胞)和早期成肌分化和终末分化(肌生成素和肌球蛋白重链2)的转录物/蛋白质表达,但后来在第4天恢复到基线水平野生型(WT)小鼠的图8和图15。相比之下,这些反应在Nrf2无效的小鼠中持续增加,表明对再生相关信号传导机制的调节需要Nrf2才能正常运行。此外,Nrf2空小鼠显示出较慢的再生,其特征在于胚胎肌球蛋白重链的时间表达失调。组织学观察表明,在CTX损伤后第15天,与WT同伴相比,Nrf2缺失的小鼠显示出较小,未成熟的TA肌肉纤维。在Nrf2无效的动物中,WT小鼠中TA肌肉形态的改善和肌肉质量的增加并不明显。这些数据加在一起表明,卫星细胞的活化,增殖和分化需要一个功能性的Nrf2系统,以在损伤后有效地治愈。—Shelar,SB,Narasimhan,M.,Shanmugam,G.,Litovsky,SH,Gounder,SS,Karan ,G.,Arulvasu,C.,Kensler,TW,Hoidal,JR,Darley-Usmar,VM,Rajasekaran,NS破坏核因子(类胡萝卜素衍生的2)-2类抗氧化剂信号传导:茎干激活受损的机制细胞和骨骼肌再生延迟。

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