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本文引用的文献

1
Extracellular annexins and dynamin are important for sequential steps in myoblast fusion.细胞外膜联蛋白和动力蛋白对于成肌细胞融合的连续步骤很重要。
J Cell Biol. 2013 Jan 7;200(1):109-23. doi: 10.1083/jcb.201207012. Epub 2012 Dec 31.
2
Histone deacetylase inhibition suppresses myogenin-dependent atrogene activation in spinal muscular atrophy mice.组蛋白去乙酰化酶抑制可抑制脊髓性肌萎缩症小鼠中依赖肌生成素的萎缩基因激活。
Hum Mol Genet. 2012 Oct 15;21(20):4448-59. doi: 10.1093/hmg/dds286. Epub 2012 Jul 13.
3
Survival motor neuron protein in motor neurons determines synaptic integrity in spinal muscular atrophy.运动神经元存活蛋白在运动神经元中决定脊髓性肌萎缩症的突触完整性。
J Neurosci. 2012 Jun 20;32(25):8703-15. doi: 10.1523/JNEUROSCI.0204-12.2012.
4
A cell-autonomous defect in skeletal muscle satellite cells expressing low levels of survival of motor neuron protein.表达运动神经元存活蛋白水平低的骨骼肌卫星细胞中的细胞自主缺陷。
Dev Biol. 2012 Aug 15;368(2):323-34. doi: 10.1016/j.ydbio.2012.05.037. Epub 2012 Jun 15.
5
Myogenesis in dysferlin-deficient myoblasts is inhibited by an intrinsic inflammatory response.肌营养不良症相关肌母细胞中的成肌发生受到内在炎症反应的抑制。
Neuromuscul Disord. 2012 Jul;22(7):648-58. doi: 10.1016/j.nmd.2012.03.002. Epub 2012 May 3.
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Myoblast fusion: lessons from flies and mice.成肌细胞融合:来自果蝇和小鼠的启示。
Development. 2012 Feb;139(4):641-56. doi: 10.1242/dev.068353.
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Integrins in cell migration.整合素在细胞迁移中的作用。
Cold Spring Harb Perspect Biol. 2011 Sep 1;3(9):a005074. doi: 10.1101/cshperspect.a005074.
8
Reversible molecular pathology of skeletal muscle in spinal muscular atrophy.脊髓性肌萎缩症骨骼肌的可逆分子病理学。
Hum Mol Genet. 2011 Nov 15;20(22):4334-44. doi: 10.1093/hmg/ddr360. Epub 2011 Aug 12.
9
Muscles in a mouse model of spinal muscular atrophy show profound defects in neuromuscular development even in the absence of failure in neuromuscular transmission or loss of motor neurons.在脊髓性肌萎缩症的小鼠模型中,即使没有神经肌肉传递失败或运动神经元丢失,肌肉也表现出明显的神经肌肉发育缺陷。
Dev Biol. 2011 Aug 15;356(2):432-44. doi: 10.1016/j.ydbio.2011.05.667. Epub 2011 May 30.
10
miR-206 and -486 induce myoblast differentiation by downregulating Pax7.miR-206 和 -486 通过下调 Pax7 诱导成肌细胞分化。
Mol Cell Biol. 2011 Jan;31(1):203-14. doi: 10.1128/MCB.01009-10. Epub 2010 Nov 1.

生存运动神经元蛋白缺乏通过改变生肌基因表达和粘着斑动力学来损害肌管形成。

Survival motor neuron protein deficiency impairs myotube formation by altering myogenic gene expression and focal adhesion dynamics.

作者信息

Bricceno Katherine V, Martinez Tara, Leikina Evgenia, Duguez Stephanie, Partridge Terence A, Chernomordik Leonid V, Fischbeck Kenneth H, Sumner Charlotte J, Burnett Barrington G

机构信息

Neurogenetics Branch, National Institute of Neurological Disorders and Stroke and Institute of Biomedical Sciences, The George Washington University, Washington, DC, USA.

Department of Neurology and.

出版信息

Hum Mol Genet. 2014 Sep 15;23(18):4745-57. doi: 10.1093/hmg/ddu189. Epub 2014 Apr 23.

DOI:10.1093/hmg/ddu189
PMID:24760765
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4140458/
Abstract

While spinal muscular atrophy (SMA) is characterized by motor neuron degeneration, it is unclear whether and how much survival motor neuron (SMN) protein deficiency in muscle contributes to the pathophysiology of the disease. There is increasing evidence from patients and SMA model organisms that SMN deficiency causes intrinsic muscle defects. Here we investigated the role of SMN in muscle development using muscle cell lines and primary myoblasts. Formation of multinucleate myotubes by SMN-deficient muscle cells is inhibited at a stage preceding plasma membrane fusion. We found increased expression and reduced induction of key muscle development factors, such as MyoD and myogenin, with differentiation of SMN-deficient cells. In addition, SMN-deficient muscle cells had impaired cell migration and altered organization of focal adhesions and the actin cytoskeleton. Partially restoring SMN inhibited the premature expression of muscle differentiation markers, corrected the cytoskeletal abnormalities and improved myoblast fusion. These findings are consistent with a role for SMN in myotube formation through effects on muscle differentiation and cell motility.

摘要

虽然脊髓性肌萎缩症(SMA)的特征是运动神经元变性,但尚不清楚肌肉中存活运动神经元(SMN)蛋白缺乏是否以及在多大程度上导致了该疾病的病理生理过程。来自患者和SMA模式生物的证据越来越多,表明SMN缺乏会导致内在的肌肉缺陷。在这里,我们使用肌肉细胞系和原代成肌细胞研究了SMN在肌肉发育中的作用。SMN缺陷型肌肉细胞形成多核肌管的过程在质膜融合之前的阶段受到抑制。我们发现,随着SMN缺陷型细胞的分化,关键肌肉发育因子如MyoD和肌细胞生成素的表达增加且诱导减少。此外,SMN缺陷型肌肉细胞的细胞迁移受损,粘着斑和肌动蛋白细胞骨架的组织发生改变。部分恢复SMN可抑制肌肉分化标志物的过早表达,纠正细胞骨架异常并改善成肌细胞融合。这些发现与SMN通过影响肌肉分化和细胞运动性在肌管形成中所起的作用一致。