AMPK 通过磷酸化 CLIP-170 控制微管聚合和定向细胞迁移的速度。

AMPK controls the speed of microtubule polymerization and directional cell migration through CLIP-170 phosphorylation.

机构信息

Division of Cardiovascular Medicine, National Cardiovascular Center Research Institute Suita, Osaka 565-8565, Japan.

出版信息

Nat Cell Biol. 2010 Jun;12(6):583-90. doi: 10.1038/ncb2060. Epub 2010 May 23.

DOI:10.1038/ncb2060

PMID:20495555

Abstract

AMP-activated protein kinase (AMPK) is an energy-sensing Ser/Thr protein kinase originally shown to be regulated by AMP. AMPK is activated by various cellular stresses that inhibit ATP production or stimulate ATP consumption. In addition to its role in metabolism, AMPK has recently been reported to reshape cells by regulating cell polarity and division. However, the downstream targets of AMPK that participate in these functions have not been fully identified. Here, we show that phosphorylation of the microtubule plus end protein CLIP-170 by AMPK is required for microtubule dynamics and the regulation of directional cell migration. Both inhibition of AMPK and expression of a non-phosphorylatable CLIP-170 mutant resulted in prolonged and enhanced accumulation of CLIP-170 at microtubule tips, and slower tubulin polymerization. Furthermore, inhibition of AMPK impaired microtubule stabilization and perturbed directional cell migration. All of these phenotypes were rescued by expression of a phosphomimetic CLIP-170 mutant. Our results demonstrate, therefore, that AMPK controls basic cellular functions by regulating microtubule dynamics through CLIP-170 phosphorylation.

摘要

腺苷酸活化蛋白激酶（AMPK）是一种能量感应丝氨酸/苏氨酸蛋白激酶，最初被证明受 AMP 调节。AMPK 可被多种抑制 ATP 产生或刺激 ATP 消耗的细胞应激激活。除了在代谢中的作用外，AMPK 最近还被报道通过调节细胞极性和分裂来重塑细胞。然而，参与这些功能的 AMPK 的下游靶标尚未完全确定。在这里，我们表明 AMPK 对微管正端蛋白 CLIP-170 的磷酸化对于微管动力学和定向细胞迁移的调节是必需的。AMPK 的抑制和非磷酸化 CLIP-170 突变体的表达都导致 CLIP-170 在微管尖端的延长和增强积累，以及微管蛋白聚合的减慢。此外，AMPK 的抑制会损害微管的稳定并扰乱定向细胞迁移。所有这些表型都可以通过表达磷酸化 CLIP-170 突变体来挽救。因此，我们的结果表明，AMPK 通过 CLIP-170 磷酸化调节微管动力学来控制基本的细胞功能。

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AMPK 通过磷酸化 CLIP-170 控制微管聚合和定向细胞迁移的速度。

AMPK controls the speed of microtubule polymerization and directional cell migration through CLIP-170 phosphorylation.

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