HIF-1α, a novel piece in the NF-κB puzzle

D. Bandarra, S. Rocha
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引用次数: 4

Abstract

Hypoxia, or low oxygen availability, is an important physiological stimulus for multicellular organisms. Molecularly, hypoxia induces a transcriptional programme directed at restoration of oxygen homeostasis and cellular survival. Hypoxia and inflammation are intimately linked, and even though it is known that NF-kB regulates the HIF system, little is known about how HIF regulates NF-kB. In a recent report we have shown that HIF-1a plays an important role in regulating NF-kB. Importantly, HIF-1a acted to restrict NF-kB transcriptional activity, in mammalian cells and in the in vivo genetic model of Drosophil a. Depletion of HIF-1a resulted in increased levels of specific NF-kB targets, by a mechanism dependent on TAK/IKK and CDK6. Deletion of the HIF-1a homologue in Drosophila , Sima, resulted in hypersensitivity to infection due to deregulated NF-kB. This report delineated for the first time the contribution of HIF-1a towards the NF-kB pathway, and demonstrated the importance of HIF-1a presence for the control of the inflammatory response in vivo . The importance of this crosstalk between HIF and NF-kB is significant, as it could create potential new therapies in diseases where hypoxia and inflammatory are prevalent.
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HIF-1α, NF-κB谜题中的一个新片段
缺氧或低氧可利用性是多细胞生物的重要生理刺激。从分子上讲,缺氧诱导了一个转录程序,旨在恢复氧稳态和细胞存活。缺氧和炎症密切相关,尽管已知NF-kB调节HIF系统,但对HIF如何调节NF-kB知之甚少。在最近的一份报告中,我们发现HIF-1a在调节NF-kB中起重要作用。重要的是,在哺乳动物细胞和果蝇的体内遗传模型中,HIF-1a可以限制NF-kB的转录活性。通过依赖于TAK/IKK和CDK6的机制,HIF-1a的缺失导致特异性NF-kB靶点水平的增加。在果蝇中,HIF-1a同源物的缺失导致NF-kB失控导致对感染的超敏反应。该报告首次描述了HIF-1a对NF-kB通路的贡献,并证明了HIF-1a的存在对体内炎症反应的控制的重要性。HIF和NF-kB之间的这种串扰的重要性是显著的,因为它可以在缺氧和炎症普遍存在的疾病中创造潜在的新疗法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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