Molecular Cancer Research, University Medical Center Utrecht , Utrecht, The Netherlands .
Antioxid Redox Signal. 2013 Oct 20;19(12):1400-19. doi: 10.1089/ars.2012.4921. Epub 2012 Dec 10.
Transcription factors of the Forkhead box O class (FOXOs) are associated with lifespan and play a role in age-related diseases. FOXOs, therefore, serve as a paradigm for developing an understanding as to how age-related diseases, such as cancer and diabetes interconnect with lifespan. Understanding the regulatory inputs on FOXO may reveal how changes in these regulatory signaling pathways affect disease and lifespan.
Numerous regulators of FOXO have now been described and a clear and evolutionary conserved role has emerged for phosphoinositide-3 kinase/protein kinase B (also known as c-Akt or AKT) signaling and c-jun N-terminal kinase signaling. Analysis of FOXO function in the context of these signaling pathways has shown the importance of FOXO-mediated transcriptional regulation on cell cycle progression and other cell fates, such as cell metabolism, stress resistance, and apoptosis in mediating disease and lifespan.
Persistent DNA damage is also tightly linked to disease and aging; yet, data on a possible link between DNA damage and FOXO have been limited. Here, we discuss possible connections between FOXO and the DNA damage response in the context of the broader role of connecting lifespan and disease.
Understanding the role of lifespan in diseases onset may provide unique and generic possibilities to intervene in disease processes to ensure a healthy lifespan.
叉头框 O 类(FOXO)转录因子与寿命有关,在与年龄相关的疾病中发挥作用。因此,FOXO 作为一个范例,可帮助我们了解与寿命相关的疾病(如癌症和糖尿病)如何相互关联。了解 FOXO 的调节输入可能揭示这些调节信号通路的变化如何影响疾病和寿命。
现在已经描述了许多 FOXO 的调节剂,并且磷酸肌醇 3 激酶/蛋白激酶 B(也称为 c-Akt 或 AKT)信号和 c-jun N 端激酶信号的明确和进化保守作用已经显现。在这些信号通路的背景下分析 FOXO 的功能表明,FOXO 介导的转录调节在细胞周期进程和其他细胞命运(如细胞代谢、应激抗性和细胞凋亡)中对介导疾病和寿命的重要性。
持续的 DNA 损伤也与疾病和衰老密切相关;然而,关于 DNA 损伤与 FOXO 之间可能存在联系的数据有限。在这里,我们讨论了 FOXO 与 DNA 损伤反应之间的可能联系,以及在更广泛的连接寿命和疾病的作用背景下。
了解寿命在疾病发病中的作用可能为干预疾病进程以确保健康寿命提供独特和通用的可能性。
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