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γ-肌动蛋白是细胞骨架维持所必需的,但不是发育所必需的。

Gamma-actin is required for cytoskeletal maintenance but not development.

作者信息

Belyantseva Inna A, Perrin Benjamin J, Sonnemann Kevin J, Zhu Mei, Stepanyan Ruben, McGee JoAnn, Frolenkov Gregory I, Walsh Edward J, Friderici Karen H, Friedman Thomas B, Ervasti James M

机构信息

Laboratory of Molecular Genetics, National Institute on Deafness and Other Communication Disorders/National Institutes of Health, Rockville, MD 20850, USA.

出版信息

Proc Natl Acad Sci U S A. 2009 Jun 16;106(24):9703-8. doi: 10.1073/pnas.0900221106. Epub 2009 Jun 3.

DOI:10.1073/pnas.0900221106
PMID:19497859
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2701000/
Abstract

Beta(cyto)-actin and gamma(cyto)-actin are ubiquitous proteins thought to be essential building blocks of the cytoskeleton in all non-muscle cells. Despite this widely held supposition, we show that gamma(cyto)-actin null mice (Actg1(-/-)) are viable. However, they suffer increased mortality and show progressive hearing loss during adulthood despite compensatory up-regulation of beta(cyto)-actin. The surprising viability and normal hearing of young Actg1(-/-) mice means that beta(cyto)-actin can likely build all essential non-muscle actin-based cytoskeletal structures including mechanosensory stereocilia of hair cells that are necessary for hearing. Although gamma(cyto)-actin-deficient stereocilia form normally, we found that they cannot maintain the integrity of the stereocilia actin core. In the wild-type, gamma(cyto)-actin localizes along the length of stereocilia but re-distributes to sites of F-actin core disruptions resulting from animal exposure to damaging noise. In Actg1(-/-) stereocilia similar disruptions are observed even without noise exposure. We conclude that gamma(cyto)-actin is required for reinforcement and long-term stability of F-actin-based structures but is not an essential building block of the developing cytoskeleton.

摘要

β(细胞)-肌动蛋白和γ(细胞)-肌动蛋白是普遍存在的蛋白质,被认为是所有非肌肉细胞中细胞骨架的基本组成部分。尽管有这种广泛的假设,但我们发现γ(细胞)-肌动蛋白基因敲除小鼠(Actg1-/-)是可存活的。然而,它们的死亡率增加,并且在成年期出现进行性听力丧失,尽管β(细胞)-肌动蛋白有代偿性上调。年轻的Actg1-/-小鼠令人惊讶的存活率和正常听力意味着β(细胞)-肌动蛋白可能能够构建所有必需的基于非肌肉肌动蛋白的细胞骨架结构,包括听力所需的毛细胞机械感觉静纤毛。虽然γ(细胞)-肌动蛋白缺陷的静纤毛正常形成,但我们发现它们无法维持静纤毛肌动蛋白核心的完整性。在野生型中,γ(细胞)-肌动蛋白沿静纤毛长度定位,但在动物暴露于有害噪声导致F-肌动蛋白核心破坏的部位重新分布。在Actg1-/-静纤毛中,即使没有噪声暴露也观察到类似的破坏。我们得出结论,γ(细胞)-肌动蛋白是基于F-肌动蛋白的结构的强化和长期稳定性所必需的,但不是发育中细胞骨架的基本组成部分。

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