Talmadge Robert J, Acosta Wendy, Garland Theodore
Department of Biological Sciences, California State Polytechnic University, Pomona, CA 91768, USA.
Department of Biology, University of California, Riverside, CA 92521, USA.
Mech Dev. 2014 Nov;134:16-30. doi: 10.1016/j.mod.2014.08.004. Epub 2014 Sep 16.
The myosin heavy chain (MyHC) isoform composition of locomotor and non-locomotor muscles of mini-muscle mice were assessed at the protein and mRNA levels in both adult and juvenile (21 day old) mice. Mini-muscle mice are one outcome of a replicated artificial selection experiment in which four lines of mice were bred for high voluntary wheel running (HR lines). Two of the lines responded with an increase in frequency of a single nucleotide polymorphism in an intron in the MyHC-2b gene (myh4) that when homozygous causes a dramatic reduction in triceps surae mass. We found that both locomotor and non-locomotor muscles of adult mini-muscle mice displayed robust reductions, but not elimination, of the MyHC-2b isoform at both the protein and mRNA levels, with commensurate increases in MyHC-2x and sometimes MyHC-2a, as compared with either a line of HR mice that does not display the mini-muscle phenotype or inbred C57Bl6 mice. Immunohistochemical analyses revealed that locomotor muscles of mini-muscle mice contain fibers that express the MyHC-2b isoform, which migrates normally in SDS-PAGE gels. However, these MyHC-2b positive fibers are generally smaller than the surrounding fibers and smaller than the MyHC-2b positive fibers of non-mini-muscle mice, resulting in characteristically fast muscles that lack a substantial MyHC-2b positive (superficial) region. In contrast, the masseter, a non-locomotor muscle of mini-muscle mice contained MyHC-2b positive fibers that stained more lightly for MyHC-2b, but appeared normal in size and distribution. In adults, many of the MyHC-2b positive fibers in the mini-muscle mice also display central nuclei. Only a small proportion of small MyHC-2b fibers in mini-muscle mice stained positive for the neural cell adhesion molecule, suggesting that anatomical innervation was not compromised. In addition, weanling (21 day old), but not 5 day old mice, displayed alterations in MyHC isoform content at both the protein and mRNA levels, including reductions in MyHC-2b and elevations in the neonatal (a.k.a. perinatal) isoform of MyHC. Collectively, these data demonstrate that the alterations in the expression of MyHC-2b are not restricted to locomotor muscles and therefore are not caused simply by any possible alterations in locomotor activity (e.g., reduced general activity in home cages). The differences in MyHC composition do not appear to result from a defect in innervation of the MyHC-2b fibers, but may result from an inefficient neonatal-to-2b MyHC isoform transition during development and are consistent with a selective lack of maturation of MyHC-2b fibers caused by reduced expression of the MyHC-2b (myh4) gene.
在成年和幼年(21日龄)小鼠中,从小鼠肌肉蛋白质和mRNA水平评估了微型肌肉小鼠运动和非运动肌肉的肌球蛋白重链(MyHC)亚型组成。微型肌肉小鼠是重复人工选择实验的结果之一,在该实验中,培育了四系用于高自主轮转跑步的小鼠(HR系)。其中两系小鼠在MyHC - 2b基因(myh4)内含子中的单核苷酸多态性频率增加,该多态性纯合时会导致小腿三头肌质量显著降低。我们发现,与未表现出微型肌肉表型的HR系小鼠或近交C57Bl6小鼠相比,成年微型肌肉小鼠的运动和非运动肌肉在蛋白质和mRNA水平上,MyHC - 2b亚型均呈现显著减少但未消除的情况,同时MyHC - 2x有时还有MyHC - 2a相应增加。免疫组织化学分析显示,微型肌肉小鼠的运动肌肉含有表达MyHC - 2b亚型的纤维,其在SDS - PAGE凝胶中正常迁移。然而,这些MyHC - 2b阳性纤维通常比周围纤维小,且比非微型肌肉小鼠的MyHC - 2b阳性纤维小,导致其特征性的快肌缺乏大量MyHC - 2b阳性(表层)区域。相比之下,微型肌肉小鼠的非运动肌肉咬肌含有MyHC - 2b阳性纤维,其对MyHC - 2b的染色较浅,但大小和分布看似正常。在成年小鼠中,微型肌肉小鼠的许多MyHC - 2b阳性纤维也显示中央核。微型肌肉小鼠中只有一小部分小的MyHC - 2b纤维对神经细胞粘附分子呈阳性染色,表明其解剖学神经支配未受损害。此外,断奶(21日龄)而非5日龄小鼠在蛋白质和mRNA水平上均表现出MyHC亚型含量的改变,包括MyHC - 2b减少和MyHC新生儿(又称围产期)亚型增加。总体而言,这些数据表明,MyHC - 2b表达的改变并不局限于运动肌肉,因此并非简单地由任何可能的运动活动改变(例如,家笼中一般活动减少)引起。MyHC组成的差异似乎并非源于MyHC - 2b纤维神经支配的缺陷,而是可能源于发育过程中从新生儿型到2b型MyHC亚型转变效率低下,并且与MyHC - 2b(myh4)基因表达降低导致的MyHC - 2b纤维选择性成熟不足一致。
