不同的PKA激活和AKAP关联决定了癌细胞的命运。

Q2 Biochemistry, Genetics and Molecular Biology Journal of Molecular Signaling Pub Date : 2013-10-01 DOI:10.1186/1750-2187-8-10
Erik D Hedrick, Ekta Agarwal, Premila D Leiphrakpam, Katie L Haferbier, Michael G Brattain, Sanjib Chowdhury
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引用次数: 19

摘要

背景:结直肠癌(CRC)细胞的恶性特性对IGF1R信号的依赖性已经得到证实,几种IGF1R拮抗剂目前正在临床试验中。最近,我们发现了一种新的途径,通过TGFβ信号激活cAMP独立的PKA,导致survivin/XIAP复合物的不稳定,从而增加细胞死亡。在本研究中,我们评估了IGF1R抑制或激活对PKA激活及其下游细胞存活信号机制的影响。方法:采用小分子IGF1R激酶抑制剂osii -906检测IGF1R抑制对PKA活化、AKAP关联及其下游细胞存活信号传导的影响。在一种互补的方法中,进行了配体介导的IGF1R激活,并分析了AKAP/PKA信号对下游生存的影响。结果:我们证明,IGF1R在IGF1R依赖性CRC亚群中的抑制通过一种新机制产生细胞死亡,该机制涉及TGFβ刺激cAMP非依赖性PKA活性,从而通过survivin/XIAP介导的caspase活性抑制破坏细胞存活。重要的是,配体介导的CRC细胞中IGF1R的激活导致cAMP依赖性PKA活性的产生,该活性通过抑制caspase活性在细胞存活中起作用。因此,CRC的这一亚群显示了由细胞质中2种不同的akap组织的2种相反的途径,这两种途径都利用PKA的激活,从而导致与生与死有关的不同结果。不依赖于cAMP的PKA激活途径依赖于线粒体AKAP149实现其凋亡功能。相比之下,prja2 (Pja2),一种类似akap的E3连接酶蛋白被鉴定为控制cAMP依赖性PKA活性和促生存信号的关键元件。使用siRNA KD对AKAP149和Praja2进行遗传操作,对PKA活性和survivin/XIAP调控具有相反的影响。结论:我们已经确定了两种依赖于相同酶活性的细胞质途径,它们对细胞的生死命运有相反的影响。了解IGF1R在确定PKA存活功能方面的具体机制功能,将对利用IGF1R/cAMP-PKA存活信号在癌症中开发新的治疗策略产生潜在影响。
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Differential PKA activation and AKAP association determines cell fate in cancer cells.

Background: The dependence of malignant properties of colorectal cancer (CRC) cells on IGF1R signaling has been demonstrated and several IGF1R antagonists are currently in clinical trials. Recently, we identified a novel pathway in which cAMP independent PKA activation by TGFβ signaling resulted in the destabilization of survivin/XIAP complex leading to increased cell death. In this study, we evaluated the effect of IGF1R inhibition or activation on PKA activation and its downstream cell survival signaling mechanisms.

Methods: Small molecule IGF1R kinase inhibitor OSI-906 was used to test the effect of IGF1R inhibition on PKA activation, AKAP association and its downstream cell survival signaling. In a complementary approach, ligand mediated activation of IGF1R was performed and AKAP/PKA signaling was analyzed for their downstream survival effects.

Results: We demonstrate that the inhibition of IGF1R in the IGF1R-dependent CRC subset generates cell death through a novel mechanism involving TGFβ stimulated cAMP independent PKA activity that leads to disruption of cell survival by survivin/XIAP mediated inhibition of caspase activity. Importantly, ligand mediated activation of the IGF1R in CRC cells results in the generation of cAMP dependent PKA activity that functions in cell survival by inhibiting caspase activity. Therefore, this subset of CRC demonstrates 2 opposing pathways organized by 2 different AKAPs in the cytoplasm that both utilize activation of PKA in a manner that leads to different outcomes with respect to life and death. The cAMP independent PKA activation pathway is dependent upon mitochondrial AKAP149 for its apoptotic functions. In contrast, Praja2 (Pja2), an AKAP-like E3 ligase protein was identified as a key element in controlling cAMP dependent PKA activity and pro-survival signaling. Genetic manipulation of AKAP149 and Praja2 using siRNA KD had opposing effects on PKA activity and survivin/XIAP regulation.

Conclusions: We had identified 2 cytoplasmic pathways dependent upon the same enzymatic activity with opposite effects on cell fate in terms of life and death. Understanding the specific mechanistic functions of IGF1R with respect to determining the PKA survival functions would have potential for impact upon the development of new therapeutic strategies by exploiting the IGF1R/cAMP-PKA survival signaling in cancer.

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Journal of Molecular Signaling
Journal of Molecular Signaling Biochemistry, Genetics and Molecular Biology-Biochemistry
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期刊介绍: Journal of Molecular Signaling is an open access, peer-reviewed online journal that encompasses all aspects of molecular signaling. Molecular signaling is an exponentially growing field that encompasses different molecular aspects of cell signaling underlying normal and pathological conditions. Specifically, the research area of the journal is on the normal or aberrant molecular mechanisms involving receptors, G-proteins, kinases, phosphatases, and transcription factors in regulating cell proliferation, differentiation, apoptosis, and oncogenesis in mammalian cells. This area also covers the genetic and epigenetic changes that modulate the signaling properties of cells and the resultant physiological conditions.
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