A two-step search and run response to gradients shapes leukocyte navigation in vivo.

The Journal of Cell Biology Pub Date : 2022-08-01 Epub Date: 2022-06-22 DOI:10.1083/jcb.202103207

Antonios Georgantzoglou, Hugo Poplimont, Hazel A Walker, Tim Lämmermann, Milka Sarris

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引用次数: 8

Abstract

Migrating cells must interpret chemical gradients to guide themselves within tissues. A long-held principle is that gradients guide cells via reorientation of leading-edge protrusions. However, recent evidence indicates that protrusions can be dispensable for locomotion in some contexts, raising questions about how cells interpret endogenous gradients in vivo and whether other mechanisms are involved. Using laser wound assays in zebrafish to elicit acute endogenous gradients and quantitative analyses, we demonstrate a two-stage process for leukocyte chemotaxis in vivo: first a "search" phase, with stimulation of actin networks at the leading edge, cell deceleration, and turning. This is followed by a "run" phase, with fast actin flows, cell acceleration, and persistence. When actin dynamics are perturbed, cells fail to resolve the gradient, suggesting that pure spatial sensing of the gradient is insufficient for navigation. Our data suggest that cell contractility and actin flows provide memory for temporal sensing, while expansion of the leading edge serves to enhance gradient sampling.

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两步搜索和运行响应梯度形状白细胞导航在体内。

迁移的细胞必须解释化学梯度来引导自己进入组织。一个长期坚持的原理是，梯度通过前缘突起的重新定向来引导细胞。然而，最近的证据表明，在某些情况下，突起对于运动可能是必不可少的，这就提出了关于细胞如何解释体内内源性梯度以及是否涉及其他机制的问题。利用斑马鱼的激光伤口试验来引发急性内源性梯度和定量分析，我们证明了体内白细胞趋化的两个阶段过程:首先是“搜索”阶段，在前沿刺激肌动蛋白网络，细胞减速和转向。接下来是“跑步”阶段，肌动蛋白快速流动，细胞加速，持续。当肌动蛋白动力学受到干扰时，细胞无法分辨梯度，这表明单纯的梯度空间感知不足以进行导航。我们的数据表明，细胞收缩性和肌动蛋白流动为时间传感提供了记忆，而前缘的扩张有助于增强梯度采样。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of Cell Biology

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