Sequences in the myosin A rod interact with UNC-89/obscurin and the zinc-finger protein UNC-98 during thick filament assembly and M-line formation in C. elegans striated muscle
Sarah A. Almuhanna, Humayra Z. Oishi, Kar Men Lee, Pamela E. Hoppe
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引用次数: 0
Abstract
The M-line of striated muscle is a complex structure that anchors myosin-containing thick filaments and also participates in signaling and proteostasis. While the physical associations among many M-line components have been defined, the mechanism of thick filament attachment is not completely understood. In Caenorhabditis elegans, myosin A is essential for viability and forms the site of M-line attachment at the center of the filament, whereas myosin B forms the filament arms. Using a mutant myosin A that forms ectopic filaments, we examined interactions between myosin A and M-line proteins in intact muscle cells. Ectopic myosin A recruits the giant kinase UNC-89/obscurin, a presumed scaffolding protein, in an interaction that requires the zinc-finger protein UNC-98, but not UNC-82/NUAK, UNC-97/PINCH, or UNC-96. In myosin A mutants, UNC-89/obscurin patterning is highly defective in embryos and adults. A chimeric myosin containing 169 residues of the myosin A C-terminal rod, coincident with the UNC-98/ZnF binding site, is sufficient for colocalization of UNC-89/obscurin and UNC-98/ZnF in M-line structures whereas a myosin chimera lacking these residues colocalizes with UNC-89/obscurin in M-lines that lack UNC-98. Thus, at least two myosin A rod regions contribute independently to M-line organization. We hypothesize that these M-line-organizing functions correspond to the essential “filament initiation function” performed by this isoform.
在 elegans 横纹肌粗丝组装和 M 线形成过程中,肌球蛋白 A 杆的序列与 UNC-89/obscurin 和锌指蛋白 UNC-98 相互作用。
横纹肌的 M 线是一种复杂的结构,它锚定了含肌球蛋白的粗丝,同时还参与信号传递和蛋白稳态。虽然许多 M 线成分之间的物理联系已经确定,但粗丝附着的机制还不完全清楚。在秀丽隐杆线虫中,肌球蛋白 A 对存活至关重要,它在粗丝中心形成 M 线附着点,而肌球蛋白 B 则形成粗丝臂。利用能形成异位丝的突变体肌球蛋白 A,我们研究了完整肌肉细胞中肌球蛋白 A 和 M 线蛋白之间的相互作用。异位肌球蛋白A招募巨激酶UNC-89/obscurin(一种假定的支架蛋白),这种相互作用需要锌指蛋白UNC-98,但不需要UNC-82/NUAK、UNC-97/PINCH或UNC-96。在肌球蛋白 A 突变体中,胚胎和成体中的 UNC-89/obscurin 模式高度缺陷。含有 169 个肌球蛋白 A C 端杆残基(与 UNC-98/ZnF 结合位点重合)的嵌合肌球蛋白足以在 M 线结构中实现 UNC-89/obscurin 和 UNC-98/ZnF 的共定位,而缺乏这些残基的肌球蛋白嵌合体则在缺乏 UNC-98 的 M 线中与 UNC-89/obscurin 共定位。因此,至少有两个肌球蛋白 A 杆部区域对 M 线组织做出了独立贡献。我们推测,这些 M 线组织功能与该同工酶的基本 "丝启动功能 "相对应。
期刊介绍:
Cytoskeleton focuses on all aspects of cytoskeletal research in healthy and diseased states, spanning genetic and cell biological observations, biochemical, biophysical and structural studies, mathematical modeling and theory. This includes, but is certainly not limited to, classic polymer systems of eukaryotic cells and their structural sites of attachment on membranes and organelles, as well as the bacterial cytoskeleton, the nucleoskeleton, and uncoventional polymer systems with structural/organizational roles. Cytoskeleton is published in 12 issues annually, and special issues will be dedicated to especially-active or newly-emerging areas of cytoskeletal research.
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