微管通过 T 细胞中的 Rho/ROCK 信号调节迁移极性。

Microtubules regulate migratory polarity through Rho/ROCK signaling in T cells.

机构信息

University College London, Department of Biochemistry and Molecular Biology and Ludwig Institute for Cancer Research, London, United Kingdom.

出版信息

PLoS One. 2010 Jan 19;5(1):e8774. doi: 10.1371/journal.pone.0008774.

DOI:10.1371/journal.pone.0008774

PMID:20098744

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2808253/

Abstract

BACKGROUND

Migrating leukocytes normally have a polarized morphology with an actin-rich lamellipodium at the front and a uropod at the rear. Microtubules (MTs) are required for persistent migration and chemotaxis, but how they affect cell polarity is not known.

METHODOLOGY/PRINCIPAL FINDINGS: Here we report that T cells treated with nocodazole to disrupt MTs are unable to form a stable uropod or lamellipodium, and instead often move by membrane blebbing with reduced migratory persistence. However, uropod-localized receptors and ezrin/radixin/moesin proteins still cluster in nocodazole-treated cells, indicating that MTs are required specifically for uropod stability. Nocodazole stimulates RhoA activity, and inhibition of the RhoA target ROCK allows nocodazole-treated cells to re-establish lamellipodia and uropods and persistent migratory polarity. ROCK inhibition decreases nocodazole-induced membrane blebbing and stabilizes MTs. The myosin inhibitor blebbistatin also stabilizes MTs, indicating that RhoA/ROCK act through myosin II to destabilize MTs.

CONCLUSIONS/SIGNIFICANCE: Our results indicate that RhoA/ROCK signaling normally contributes to migration by affecting both actomyosin contractility and MT stability. We propose that regulation of MT stability and RhoA/ROCK activity is a mechanism to alter T-cell migratory behavior from lamellipodium-based persistent migration to bleb-based migration with frequent turning.

摘要

背景

正常迁移的白细胞通常具有极化形态，前端有富含肌动蛋白的片状伪足，后端有尾足。微管（MTs）是持久迁移和趋化性所必需的，但它们如何影响细胞极性尚不清楚。

方法/主要发现：在这里，我们报告用长春花碱处理 T 细胞以破坏微管，使其无法形成稳定的尾足或片状伪足，而是经常通过细胞膜起泡以减少迁移的持久性来移动。然而，尾足定位的受体和 ezrin/radixin/moesin 蛋白仍然聚集在长春花碱处理的细胞中，表明微管特异性地需要尾足的稳定性。长春花碱刺激 RhoA 活性，并且抑制 RhoA 靶标 ROCK 允许长春花碱处理的细胞重新建立片状伪足和尾足以及持久的迁移极性。ROCK 抑制减少了长春花碱诱导的细胞膜起泡并稳定了 MTs。肌球蛋白抑制剂 blebbistatin 也稳定了 MTs，表明 RhoA/ROCK 通过肌球蛋白 II 起作用以破坏 MTs 的稳定性。

结论/意义：我们的结果表明，RhoA/ROCK 信号通常通过影响肌动球蛋白收缩性和 MT 稳定性来促进迁移。我们提出，MT 稳定性和 RhoA/ROCK 活性的调节是改变 T 细胞迁移行为的一种机制，从片状伪足为基础的持久迁移到频繁转弯的泡状迁移。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2b40/2808253/22ecde3cae44/pone.0008774.g001.jpg

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微管通过 T 细胞中的 Rho/ROCK 信号调节迁移极性。

Microtubules regulate migratory polarity through Rho/ROCK signaling in T cells.

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