斑马鱼胚胎中 Mylpf 的剂量与快速肌动肌原纤维的大小成正比

Tayo E Adekeye, Emily M Teets, Emily A Tomak, Sadie L Waterman, Kailee A Sprague, Angelina White, Maddison L Coffin, Sabrina M Varga, Teresa E Easterbrooks, Sarah J Shepherd, Jared D Austin, Dmitrii Krivorotko, Troy E Hupper, Joshua B Kelley, Sharon L Amacher, Jared C Talbot
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引用次数: 0

摘要

肌纤维是产生收缩力的肌节链,肌肉细胞通过扩大肌纤维变得更强壮。在这里,我们研究了 Mylpf(肌球蛋白轻链磷酸化快速)的丰度如何影响快肌中肌原纤维的组装。斑马鱼的两个 Mylpf 基因(mylpfa 和 mylpfb)只在快动肌中表达。我们的研究表明,这些细胞最初产生的 mylpfa mRNA 和蛋白质是 mylpfb 的六倍。Mylpf蛋白的合计剂量是胚胎中快肌肌原纤维生长所必需的,并且与之成正比。在mylpfa-/-突变体中,快速肌纤维严重减少,导致失去高速运动能力;然而,通过持续的慢速运动,该突变体与野生型同胞一样可以游得很远。虽然mylpfb-/-突变体具有正常的肌原纤维,但在mylpfa-/-;mylpfb-/-双突变体中,肌原纤维的形成完全失败,这表明这两个基因对于肌原纤维的形成共同至关重要。转基因表达 mylpfa-GFP、mylpfb-GFP 和人类 MYLPF-GFP 可恢复 mylpfa-/- 突变体的快速肌纤维宽度,其恢复程度与 GFP 亮度成线性关系。如果表达导致远端关节软化症的 MYLPF 等位基因,这种相关性就会颠倒过来,从而使肌原纤维的大小与蛋白质丰度成比例地减少。这些效应表明,Mylpf 的剂量控制着肌原纤维的生长,影响着胚胎发育和终生健康。
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Mylpf dosage is proportionate to fast-twitch myofibril size in the zebrafish embryo
Muscle cells become stronger by expanding myofibrils, the chains of sarcomeres that produce contraction. Here we investigate how Mylpf (Myosin Light Chain Phosphorylatable Fast) abundance impacts myofibril assembly in fast-twitch muscle. The two zebrafish Mylpf genes (mylpfa and mylpfb) are exclusively expressed in fast-twitch muscle. We show that these cells initially produce six times more mylpfa mRNA and protein than mylpfb. The combined Mylpf protein dosage is necessary for and proportionate to fast-twitch myofibril growth in the embryo. Fast-twitch myofibrils are severely reduced in the mylpfa-/- mutant, leading to loss of high-speed movement; however, by persistent slow movement this mutant swims as far through time as its wild-type sibling. Although the mylpfb-/- mutant has normal myofibrils, myofibril formation fails entirely in the mylpfa-/-;mylpfb-/- double mutant, indicating that the two genes are collectively essential to myofibril formation. Fast-twitch myofibril width is restored in the mylpfa-/- mutant by transgenic expression of mylpfa-GFP, mylpfb-GFP, and by human MYLPF-GFP to a degree corresponding linearly with GFP brightness. This correlate is inverted by expression of MYLPF alleles that cause Distal Arthrogryposis, which reduce myofibril size in proportion to protein abundance. These effects indicate that Mylpf dosage controls myofibril growth, impacting embryonic development and lifelong health.
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