Evaluation of lamin A/C mechanotransduction under different surface topography in LMNA related muscular dystrophy.

Subarna Dutta, T Muraganadan, Madavan Vasudevan
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Abstract

Most of the single point mutations of the LMNA gene are associated with distinct muscular dystrophies, marked by heterogenous phenotypes but primarily the loss and symmetric weakness of skeletal muscle tissue. The molecular mechanism and phenotype-genotype relationships in these muscular dystrophies are poorly understood. An effort has been here to delineating the adaptation of mechanical inputs into biological response by mutant cells of lamin A associated muscular dystrophy. In this study, we implement engineered smooth and pattern surfaces of particular young modulus to mimic muscle physiological range. Using fluorescence and atomic force microscopy, we present distinct architecture of the actin filament along with abnormally distorted cell and nuclear shape in mutants, which showed a tendency to deviate from wild type cells. Topographic features of pattern surface antagonize the binding of the cell with it. Correspondingly, from the analysis of genome wide expression data in wild type and mutant cells, we report differential expression of the gene products of the structural components of cell adhesion as well as LINC (linkers of nucleoskeleton and cytoskeleton) protein complexes. This study also reveals mis expressed downstream signaling processes in mutant cells, which could potentially lead to onset of the disease upon the application of engineered materials to substitute the role of conventional cues in instilling cellular behaviors in muscular dystrophies. Collectively, these data support the notion that lamin A is essential for proper cellular mechanotransduction from extracellular environment to the genome and impairment of the muscle cell differentiation in the pathogenic mechanism for lamin A associated muscular dystrophy.

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评估 LMNA 相关性肌营养不良症患者在不同表面形貌下的层粘连 A/C机械传导。
大多数 LMNA 基因的单点突变都与不同的肌肉萎缩症有关,其表型各异,但主要表现为骨骼肌组织的缺失和对称性无力。人们对这些肌肉萎缩症的分子机制和表型与基因型之间的关系知之甚少。我们一直在努力研究层粘连A型肌营养不良症突变细胞对机械输入的适应,并将其转化为生物反应。在这项研究中,我们采用了具有特定年轻模量的工程光滑表面和图案表面来模拟肌肉的生理范围。利用荧光和原子力显微镜,我们发现了肌动蛋白丝的独特结构,以及突变体中异常扭曲的细胞和核形状,这些突变体显示出偏离野生型细胞的趋势。图案表面的拓扑特征拮抗了细胞与图案表面的结合。相应地,通过分析野生型细胞和突变体细胞的全基因组表达数据,我们报告了细胞粘附结构成分以及 LINC(核骨架和细胞骨架的连接体)蛋白复合物的基因产物的不同表达。这项研究还揭示了突变细胞中错误表达的下游信号转导过程,当应用工程材料替代传统线索在肌肉萎缩症中灌输细胞行为时,这可能会导致疾病的发生。总之,这些数据支持了这样一种观点,即层压板 A 对于从细胞外环境到基因组的适当细胞机械传导以及层压板 A 相关肌营养不良症致病机制中的肌肉细胞分化损伤至关重要。
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