利用新型激光穿孔技术研究 Dictyostelium 细胞的伤口修复。

A study of wound repair in Dictyostelium cells by using novel laserporation.

机构信息

Department of Functional Molecular Biology, Graduate School of Medicine, Yamaguchi University, Yamaguchi, 753-8512, Japan.

Department of Molecular Medicine and Biochemistry, Akita University Graduate School of Medicine, Akita, 010-8543, Japan.

出版信息

Sci Rep. 2018 May 22;8(1):7969. doi: 10.1038/s41598-018-26337-0.

DOI:10.1038/s41598-018-26337-0

PMID:29789591

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5964096/

Abstract

We examined the mechanism of cell membrane repair in Dictyostelium cells by using a novel laser-based cell poration method. The dynamics of wound pores opening and closing were characterized by live imaging of fluorescent cell membrane proteins, influx of fluorescent dye, and Ca imaging. The wound closed within 2-4 sec, depending on the wound size. Cells could tolerate a wound size of less than 2.0 µm. In the absence of Ca in the external medium, the wound pore did not close and cells ruptured. The release of Ca from intracellular stores also contributed to the elevation of cytoplasmic Ca but not to wound repair. Annexin C1 immediately accumulated at the wound site depending on the external Ca concentration, and annexin C1 knockout cells had a defect in wound repair, but it was not essential. Dictyostelium cells were able to respond to multiple repeated wounds with the same time courses, in contrast to previous reports showing that the first wound accelerates the second wound repair in fibroblasts.

摘要

我们使用一种新颖的基于激光的细胞膜穿孔方法来研究变形虫细胞的细胞膜修复机制。通过对荧光细胞膜蛋白的实时成像、荧光染料的内流和 Ca 成像，我们对伤口孔的打开和关闭动力学进行了表征。伤口在 2-4 秒内闭合，具体取决于伤口的大小。细胞可以耐受小于 2.0 µm 的伤口大小。在外部介质中没有 Ca 的情况下，伤口孔不会关闭，细胞会破裂。细胞内储存的 Ca 的释放也有助于细胞质 Ca 的升高，但对伤口修复没有贡献。 Annexin C1 会根据外部 Ca 浓度立即聚集在伤口部位，而 Annexin C1 敲除细胞在伤口修复方面存在缺陷，但这并不是必需的。与之前的报告显示成纤维细胞中的第一个伤口会加速第二个伤口修复相反，变形虫细胞能够以相同的时间进程对多个重复的伤口做出反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec44/5964096/773b116e08cf/41598_2018_26337_Fig1_HTML.jpg

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利用新型激光穿孔技术研究 Dictyostelium 细胞的伤口修复。

A study of wound repair in Dictyostelium cells by using novel laserporation.

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