骨骼肌靶向的 CuZnSOD 基因缺失导致收缩力丧失,但不会引起成年小鼠的肌肉萎缩。
CuZnSOD gene deletion targeted to skeletal muscle leads to loss of contractile force but does not cause muscle atrophy in adult mice.
机构信息
Department of Physiology, University of Texas Health Science Center, San Antonio, Texas 78249, USA.
出版信息
FASEB J. 2013 Sep;27(9):3536-48. doi: 10.1096/fj.13-228130. Epub 2013 May 31.
Abstract
We have previously shown that deletion of CuZnSOD in mice (Sod1(-/-) mice) leads to accelerated loss of muscle mass and contractile force during aging. To dissect the relative roles of skeletal muscle and motor neurons in this process, we used a Cre-Lox targeted approach to establish a skeletal muscle-specific Sod1-knockout (mKO) mouse to determine whether muscle-specific CuZnSOD deletion is sufficient to cause muscle atrophy. Surprisingly, mKO mice maintain muscle masses at or above those of wild-type control mice up to 18 mo of age. In contrast, maximum isometric specific force measured in gastrocnemius muscle is significantly reduced in the mKO mice. We found no detectable increases in global measures of oxidative stress or ROS production, no reduction in mitochondrial ATP production, and no induction of adaptive stress responses in muscle from mKO mice. However, Akt-mTOR signaling is elevated and the number of muscle fibers with centrally located nuclei is increased in skeletal muscle from mKO mice, which suggests elevated regenerative pathways. Our data demonstrate that lack of CuZnSOD restricted to skeletal muscle does not lead to muscle atrophy but does cause muscle weakness in adult mice and suggest loss of CuZnSOD may potentiate muscle regenerative pathways.
摘要
我们之前的研究表明,在小鼠中删除 CuZnSOD(Sod1(-/-) 小鼠)会导致衰老过程中肌肉质量和收缩力的加速丧失。为了剖析这一过程中骨骼肌和运动神经元的相对作用,我们使用 Cre-Lox 靶向方法建立了骨骼肌特异性 Sod1 敲除(mKO)小鼠,以确定骨骼肌特异性 CuZnSOD 缺失是否足以引起肌肉萎缩。令人惊讶的是,mKO 小鼠在 18 个月龄时的肌肉质量保持在或高于野生型对照小鼠的水平。相比之下,mKO 小鼠的比目鱼肌最大等长比肌力显著降低。我们在 mKO 小鼠的肌肉中未检测到氧化应激或 ROS 产生的全局指标增加,线粒体 ATP 产生也没有减少,也没有诱导肌肉适应性应激反应。然而,Akt-mTOR 信号通路被激活,mKO 小鼠骨骼肌中中央核肌纤维的数量增加,这表明再生途径被激活。我们的数据表明,仅限于骨骼肌的 CuZnSOD 缺乏不会导致肌肉萎缩,但会导致成年小鼠肌肉无力,并提示 CuZnSOD 的丧失可能增强肌肉再生途径。
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