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干扰素-α2b通过一种不依赖Ras/Raf的机制降低MEK和ERK的磷酸化及活性。

Interferon-alpha2b reduces phosphorylation and activity of MEK and ERK through a Ras/Raf-independent mechanism.

作者信息

Romerio F, Riva A, Zella D

机构信息

Institute of Human Virology, University of Maryland Biotechnology Institute, Baltimore, Maryland 21201, USA.

出版信息

Br J Cancer. 2000 Aug;83(4):532-8. doi: 10.1054/bjoc.2000.1263.

DOI:10.1054/bjoc.2000.1263
PMID:10945503
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2374650/
Abstract

Interferon (IFN)-alpha affects the growth, differentiation and function of various cell types by transducing regulatory signals through the Janus tyrosine kinase/signal transducers of activation and transcription (Jak/STAT) pathway. The signalling pathways employing the mitogen-activated ERK-activating kinase (MEK) and the extracellular-regulated kinase (ERK) are critical in growth factors signalling. Engagement of the receptors, and subsequent stimulation of Ras and Raf, initiates a phosphorylative cascade leading to activation of several proteins among which MEK and ERK play a central role in routing signals critical in controlling cell development, activation and proliferation. We demonstrate here that 24-48 h following treatment of transformed T- and monocytoid cell lines with recombinant human IFN-alpha2b both the phosphorylation and activity of MEK1 and its substrates ERK1/2 were reduced. In contrast, the activities of the upstream molecules Ras and Raf-1 were not affected. No effect on MEK/ERK activity was observed upon short-term exposure (1-30 min) to IFN. The anti-proliferative effect of IFN-alpha was increased by the addition in the culture medium of a specific inhibitor of MEK, namely PD98059. In conclusion, our results indicate that IFN-alpha regulates the activity of the MEK/ERK pathway and consequently modulates cellular proliferation through a Ras/Raf-independent mechanism. Targeting the MEK/ERK pathway may strengthen the IFN-mediated anti-cancer effect.

摘要

干扰素(IFN)-α通过Janus酪氨酸激酶/信号转导子和转录激活子(Jak/STAT)途径转导调节信号,从而影响多种细胞类型的生长、分化和功能。采用丝裂原活化的ERK激活激酶(MEK)和细胞外调节激酶(ERK)的信号通路在生长因子信号传导中至关重要。受体的结合以及随后对Ras和Raf的刺激引发磷酸化级联反应,导致几种蛋白质的激活,其中MEK和ERK在传递对控制细胞发育、激活和增殖至关重要的信号中起核心作用。我们在此证明,用重组人IFN-α2b处理转化的T细胞系和单核细胞系24 - 48小时后,MEK1及其底物ERK1/2的磷酸化和活性均降低。相比之下,上游分子Ras和Raf-1的活性未受影响。短期暴露(1 - 30分钟)于IFN时,未观察到对MEK/ERK活性的影响。在培养基中添加MEK的特异性抑制剂PD98059可增强IFN-α的抗增殖作用。总之,我们的结果表明,IFN-α通过一种不依赖Ras/Raf的机制调节MEK/ERK途径的活性,从而调节细胞增殖。靶向MEK/ERK途径可能会增强IFN介导的抗癌作用。

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