Self-organizing actin waves that simulate phagocytic cup structures.

PMC biophysics Pub Date : 2010-03-18 DOI:10.1186/1757-5036-3-7

Günther Gerisch

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引用次数: 47

Abstract

This report deals with actin waves that are spontaneously generated on the planar, substrate-attached surface of Dictyostelium cells. These waves have the following characteristics. (1) They are circular structures of varying shape, capable of changing the direction of propagation. (2) The waves propagate by treadmilling with a recovery of actin incorporation after photobleaching of less than 10 seconds. (3) The waves are associated with actin-binding proteins in an ordered 3-dimensional organization: with myosin-IB at the front and close to the membrane, the Arp2/3 complex throughout the wave, and coronin at the cytoplasmic face and back of the wave. Coronin is a marker of disassembling actin structures. (4) The waves separate two areas of the cell cortex that differ in actin structure and phosphoinositide composition of the membrane. The waves arise at the border of membrane areas rich in phosphatidylinositol (3,4,5) trisphosphate (PIP3). The inhibition of PIP3 synthesis reversibly inhibits wave formation. (5) The actin wave and PIP3 patterns resemble 2-dimensional projections of phagocytic cups, suggesting that they are involved in the scanning of surfaces for particles to be taken up.PACS Codes: 87.16.Ln, 87.19.lp, 89.75.Fb.

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模拟吞噬杯结构的自组织肌动蛋白波。

这篇报道讨论了肌动蛋白波是自发产生的平面，底物附着表面的盘形骨细胞。这些波有以下特点。(1)它们是形状各异的圆形结构，能够改变传播方向。(2)在光漂白不到10秒后，波通过跑步传播，肌动蛋白掺入恢复。(3)波与肌动蛋白结合蛋白在有序的三维组织中相关:肌球蛋白- ib位于膜的前部和附近，Arp2/3复合物贯穿整个波，冠状蛋白位于波的细胞质面和背面。冠状蛋白是肌动蛋白结构分解的标志。(4)这些波将细胞皮层的两个区域分开，这两个区域在肌动蛋白结构和膜的磷酸肌肽组成上不同。波出现在富含磷脂酰肌醇(3,4,5)三磷酸(PIP3)的膜区边界。抑制PIP3合成可可逆地抑制波的形成。(5)肌动蛋白波和PIP3模式类似于吞噬杯的二维投影，表明它们参与了对表面的扫描，以使颗粒被吸收。PACS代码:87.16。Ln, 87.19。lp, 89.75.Fb。

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PMC biophysics

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