Department of Neuroscience, Clinical Neurophysiology, Uppsala University Hospital, Entrance 85, 3rd floor, SE-751 85 Uppsala, Sweden.
FASEB J. 2011 Jun;25(6):1903-13. doi: 10.1096/fj.10-176727. Epub 2011 Feb 24.
Nebulin is a giant protein expressed at high levels in skeletal muscle. Mutations in the nebulin gene (NEB) lead to muscle weakness and various congenital myopathies. Despite increasing clinical and scientific interest, the pathogenesis of weakness remains unknown. The present study, therefore, aims at unraveling the underlying molecular mechanisms. Hence, we recorded and analyzed the mechanics as well as the X-ray diffraction patterns of human membrane-permeabilized single muscle fibers expressing nebulin mutations. Results demonstrated that, during contraction, the cycling rate of myosin heads attaching to actin is dramatically perturbed, causing a reduction in the fraction of myosin-actin interactions in the strong binding state. This phenomenon prevents complete thin-filament activation, more especially proper and full tropomyosin movement, further limiting additional binding of myosin cross-bridges. At the cell level, this reduces the force-generating capacity and, overall, provokes muscle weakness. To reverse such a negative cascade of events, future potential therapeutic interventions should, therefore, focus on the triggering component, the altered myosin cross-bridge cycling kinetics.
肌联蛋白是一种在骨骼肌中高度表达的巨大蛋白。肌联蛋白基因 (NEB) 的突变导致肌肉无力和各种先天性肌病。尽管临床和科学兴趣日益增加,但肌无力的发病机制仍不清楚。因此,本研究旨在揭示潜在的分子机制。为此,我们记录和分析了表达肌联蛋白突变的人细胞膜通透单肌纤维的力学和 X 射线衍射模式。结果表明,在收缩过程中,肌球蛋白头部附着在肌动蛋白上的循环速度受到严重干扰,导致强结合状态下肌球蛋白-肌动蛋白相互作用的比例降低。这种现象阻止了薄丝的完全激活,特别是适当和完全的原肌球蛋白运动,进一步限制了肌球蛋白横桥的额外结合。在细胞水平上,这会降低产生力的能力,总体上导致肌肉无力。为了逆转这种负面事件的级联反应,未来的潜在治疗干预措施应集中在触发组件上,即改变的肌球蛋白横桥循环动力学。