Barberis D, Artigiani S, Casazza A, Corso S, Giordano S, Love C A, Jones E Y, Comoglio P M, Tamagnone Luca
Institute for Cancer Research and Treatment, University of Torino School of Medicine, Candiolo, Italy.
FASEB J. 2004 Mar;18(3):592-4. doi: 10.1096/fj.03-0957fje. Epub 2004 Jan 20.
Plexins encode receptors for semaphorins, molecular signals guiding cell migration, and axon pathfinding. The mechanisms mediating plexin function are poorly understood. Plexin activation in adhering cells rapidly leads to retraction of cellular processes and cell rounding "cell collapse"). Here we show that, unexpectedly, this response does not require the activity of Rho-dependent kinase (ROCK) nor the contraction of F-actin cables. Interestingly, integrin-based focal adhesive structures are disassembled within minutes upon plexin activation; this is followed by actin depolymerization and, eventually, by cellular collapse. We also show that plexin activation hinders cell attachment to adhesive substrates, blocks the extension of lamellipodia, and thereby inhibits cell migration. We conclude that plexin signaling uncouples cell substrate-adhesion from cytoskeletal dynamics required for cell migration and axon extension.
丛状蛋白编码信号素的受体,信号素是引导细胞迁移和轴突寻路的分子信号。介导丛状蛋白功能的机制目前还知之甚少。在黏附细胞中激活丛状蛋白会迅速导致细胞突起缩回和细胞变圆(“细胞塌陷”)。在此我们意外地发现,这种反应既不需要Rho依赖性激酶(ROCK)的活性,也不需要F-肌动蛋白束的收缩。有趣的是,基于整合素的粘着斑结构在丛状蛋白激活后几分钟内就会解体;随后是肌动蛋白解聚,最终导致细胞塌陷。我们还表明,丛状蛋白激活会阻碍细胞与黏附底物的附着,阻止片状伪足的延伸,从而抑制细胞迁移。我们得出结论,丛状蛋白信号传导将细胞与底物的黏附与细胞迁移和轴突延伸所需的细胞骨架动力学解偶联。
