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Talin1 phosphorylation activates β1 integrins: a novel mechanism to promote prostate cancer bone metastasis

机译:Talin1磷酸化激活β1整合素:促进前列腺癌骨转移的新机制

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Talins are adaptor proteins that regulate focal adhesion signaling by conjugating integrins to the cytoskeleton. Talins directly bind integrins and are essential for integrin activation. We previously showed that β1 integrins are activated in metastatic prostate cancer (PCa) cells, increasing PCa metastasis to lymph nodes and bone. However, how β1 integrins are activated in PCa cells is unknown. In this study, we identified a novel mechanism of β1 integrin activation. Using knockdown experiments, we first demonstrated talin1, but not talin2, is important in β1 integrin activation. We next showed that talin1 S425 phosphorylation, but not total talin1 expression, correlates with metastatic potential of PCa cells. Expressing a non-phosphorylatable mutant, talin1S425A, in talin1-silenced PC3-MM2 and C4-2B4 PCa cells, decreased activation of β1 integrins, integrin-mediated adhesion, motility, and increased the sensitivity of the cells to anoikis. In contrast, re-expression of the phosphorylation-mimicking mutant talin1S425D led to increased β1 integrin activation and generated biologic effects opposite to talin1S425A expression. In the highly metastatic PC3-MM2 cells, expression of a non-phosphorylatable mutant, talin1S425A, in talin1-silenced PC3-MM2 cells, abolished their ability to colonize in the bone following intracardiac injection, while re-expression of phosphorylation-mimicking mutant talin1S425D restored their ability to metastasize to bone. Immunohistochemical staining demonstrated that talin S425 phosphorylation is significantly increased in human bone metastases when compared to normal tissues, primary tumors, or lymph node metastases. We further showed that p35 expression, an activator of Cdk5, and Cdk5 activity were increased in metastatic tumor cells, and that Cdk5 kinase activity is responsible for talin1 phosphorylation and subsequent β1 integrin activation. Together, our study reveals Cdk5-mediated phosphorylation of talin1 leading to β1 integrin activation is a novel mechanism that increases metastatic potential of PCa cells.
机译:牛lin蛋白是通过将整联蛋白与细胞骨架结合来调节粘着斑信号转导的衔接蛋白。牛lin蛋白直接结合整联蛋白,并且对于整联蛋白活化是必不可少的。我们以前的研究表明,β1整合素在转移性前列腺癌(PCa)细胞中被激活,从而增加了PCa向淋巴结和骨骼的转移。然而,未知如何在PCa细胞中激活β1整合素。在这项研究中,我们确定了β1整合素激活的新机制。通过敲低实验,我们首先证明了talin1,而不是talin2,在β1整合素激活中很重要。接下来,我们证明talin1 S425的磷酸化作用与PCa细胞的转移潜能相关,但与总的talin1表达无关。在talin1沉默的PC3-MM2和C4-2B4 PCa细胞中表达不可磷酸化突变体talin1 S425A ,降低β1整联蛋白的激活,整联蛋白介导的粘附,运动性并增加其敏感性细胞失常。相反,模仿磷酸化突变体talin1 S425D 的重新表达导致β1整联蛋白激活增加,并产生与talin1 S425A 表达相反的生物学效应。在高度转移的PC3-MM2细胞中,沉默了talin1的PC3-MM2细胞中非磷酸化突变体talin1 S425A 的表达消除了其在心脏内注射后在骨中定植的能力,而磷酸化模拟突变体talin1 S425D 的表达恢复了它们向骨转移的能力。免疫组织化学染色表明,与正常组织,原发肿瘤或淋巴结转移相比,塔林S425磷酸化在人骨转移中显着增加。我们进一步显示,转移性肿瘤细胞中p35表达,Cdk5激活剂和Cdk5活性增加,并且Cdk5激酶活性负责talin1磷酸化和随后的β1整联蛋白激活。总之,我们的研究表明Cdk5介导的talin1磷酸化导致β1整合素激活是增加PCa细胞转移潜力的新机制。

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