纳米孔隙刺激突变整联蛋白结合蛋白的细胞扩展和焦点黏附形成。

Nanoporosity Stimulates Cell Spreading and Focal Adhesion Formation in Cells with Mutated Paxillin.

机构信息

Laboratory for the Study of Calcified Tissues and Biomaterials, Department of Stomatology, Faculty of Dentistry, Université de Montréal, Montréal, Québec H3C3J7, Canada.

Department of Chemistry, Faculty of Arts and Sciences, Université de Montréal, Québec H3C3J7, Canada.

出版信息

ACS Appl Mater Interfaces. 2020 Apr 1;12(13):14924-14932. doi: 10.1021/acsami.0c01172. Epub 2020 Mar 19.

DOI:10.1021/acsami.0c01172

PMID:32155329

Abstract

We have evaluated the response to nanotopography of CHO-K1 cells that express wild-type paxillin or paxillin with mutations at serine 273 that inhibit phosphorylation. Cells were grown on nanoporous and polished titanium surfaces. With all cell types, immunofluorescence showed that adhesion and spreading were minimally affected on the treated surface and that the actin filaments were more abundant and well-aligned. Scanning electron microscopy revealed changes in cell shape and abundant filopodia with lateral nanoprotrusions in response to nanoporosity. Gene expression of proteins associated with cellular adhesion and protrusions was significantly increased on the nanoporous surface regardless of the cell type. In particular, α-actinin, Rac1, Cdc42, and ITGα1 were upregulated in S273 cells with alanine substitutions, whereas FAK, Pxn, and Src were downregulated, leading to improved focal adhesion formation. These findings suggest that the surface nanoporosity can "compensate for" the genetic mutations that affect the biomechanical relationship of cells to surfaces.

摘要

我们评估了表达野生型黏着斑蛋白或丝氨酸 273 位突变（抑制磷酸化）黏着斑蛋白的 CHO-K1 细胞对纳米形貌的反应。细胞在纳米多孔和抛光钛表面上生长。对于所有细胞类型，免疫荧光显示，在处理过的表面上，细胞黏附和铺展受到的影响最小，肌动蛋白丝更加丰富且排列整齐。扫描电子显微镜显示，细胞形状发生变化，出现大量的侧翼纳米突起的丝状伪足，这是对纳米多孔性的响应。无论细胞类型如何，细胞黏附和突起相关蛋白的基因表达在纳米多孔表面均显著增加。特别是，带有丙氨酸取代的 S273 细胞中α-辅肌动蛋白、Rac1、Cdc42 和 ITGα1 上调，而 FAK、Pxn 和 Src 下调，导致焦点黏附形成改善。这些发现表明，表面纳米多孔性可以“补偿”影响细胞与表面生物力学关系的基因突变。

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纳米孔隙刺激突变整联蛋白结合蛋白的细胞扩展和焦点黏附形成。

Nanoporosity Stimulates Cell Spreading and Focal Adhesion Formation in Cells with Mutated Paxillin.

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