p53 与 Δ133p53α 和 Δ160p53α 异构体的相互作用调节 p53 的构象和转录活性。

IF 8.1 1区 生物学 Q1 CELL BIOLOGY Cell Death & Disease Pub Date : 2024-11-19 DOI:10.1038/s41419-024-07213-4
Fanny Tomas, Pierre Roux, Véronique Gire
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引用次数: 0

摘要

TP53 基因编码 p53,这是一种参与抑制肿瘤的转录因子。然而,TP53 也编码其他蛋白质同工酶,其中一些即使没有 TP53 突变,也会破坏 p53 的肿瘤抑制功能。特别是,在许多癌症类型中都能检测到Δ133TP53 mRNA水平的升高,这可能与较差的无病生存率有关。我们研究了从Δ133TP53 mRNA翻译而来的两种蛋白质的作用机制:Δ133p53α和Δ160p53α异构体,这两种异构体都保留了p53的寡聚结构域。我们发现,与全长 p53 相比,Δ133p53α 和 Δ160p53α异构体的构象发生了改变,暴露出 PAb240 表位(RHSVV),而在 p53 的功能构象(对 PAb1620 有反应)中,PAb240 抗体无法进入该表位。Δ133p53α和/或Δ160p53α异构体与 p53 形成异质配体,调节 p53 异质配体的稳定性、构象和转录活性。在基础条件下,Δ133p53α 和 Δ160p53α与 p53 复合物可阻止蛋白酶体依赖性降解,导致 PAb240 反应性Δ133p53α/Δ160p53α/p53 异配体的积累,而不增加 p53 的转录活性。相反,消耗人成纤维细胞中的内源性Δ133p53α异构体足以恢复 p53 的转录活性,使 p53 靶基因参与细胞周期停滞。在DNA损伤反应(DDR)中,与不含Δ133p53α和Δ160p53α的PAb1620反应型p53复合物相比,PAb240反应型Δ133p53α/Δ160p53α/p53异质多聚体在Ser15处高度磷酸化。这表明 PAb240 反应型 p53 异配体整合了 DNA 损伤信号。Δ133p53α的积累是DDR的晚期事件,它依赖于p53,但不依赖于其转录激活。Δ133p53α和p53复合物的形成在DDR后期会增加。我们认为,Δ133p53α异构体调节p53构象是正常p53生物学的一部分,它调节p53活性,从而使细胞响应适应细胞信号。
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Interaction of p53 with the Δ133p53α and Δ160p53α isoforms regulates p53 conformation and transcriptional activity.

The TP53 gene encodes p53, a transcription factor involved in tumor suppression. However, TP53 also encodes other protein isoforms, some of which can disrupt the tumor suppressor functions of p53 even in the absence of TP53 mutations. In particular, elevated levels of the Δ133TP53 mRNA are detected in many cancer types and can be associated with poorer disease-free survival. We investigated the mechanisms of action of the two proteins translated from the Δ133TP53 mRNA: the Δ133p53α and Δ160p53α isoforms, both of which retain the oligomerization domain of p53. We discovered that the Δ133p53α and Δ160p53α isoforms adopt an altered conformation compared to full-length p53, exposing the PAb240 epitope (RHSVVV), which is inaccessible to the PAb240 antibody in the functional conformation of p53 (reactive to PAb1620). The Δ133p53α and/or Δ160p53α isoforms form hetero-oligomers with p53, regulating the stability, the conformation and the transcriptional activity of the p53 hetero-oligomers. Under basal conditions, Δ133p53α and Δ160p53α, in complex with p53, prevent proteasome-dependent degradation leading to the accumulation of PAb240 reactive Δ133p53α/Δ160p53α/p53 hetero-oligomers without increasing p53 transcriptional activity. Conversely, depletion of endogenous Δ133p53α isoforms in human fibroblasts is sufficient to restore p53 transcriptional activity, towards p53-target genes involved in cell cycle arrest. In the DNA damage response (DDR), PAb240 reactive Δ133p53α/Δ160p53α/p53 hetero-oligomers are highly phosphorylated at Ser15 compared to PAb1620-reactive p53 complexes devoid of Δ133p53α and Δ160p53α. This suggests that PAb240-reactive p53 hetero-oligomers integrate DNA damage signals. Δ133p53α accumulation is a late event in the DDR that depends on p53, but not on its transcriptional activation. The formation of Δ133p53α and p53 complexes increases at later DDR stages. We propose that Δ133p53α isoforms regulate p53 conformation as part of the normal p53 biology, modulating p53 activity and thereby adapting the cellular response to the cell signals.

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来源期刊
Cell Death & Disease
Cell Death & Disease CELL BIOLOGY-
CiteScore
15.10
自引率
2.20%
发文量
935
审稿时长
2 months
期刊介绍: Brought to readers by the editorial team of Cell Death & Differentiation, Cell Death & Disease is an online peer-reviewed journal specializing in translational cell death research. It covers a wide range of topics in experimental and internal medicine, including cancer, immunity, neuroscience, and now cancer metabolism. Cell Death & Disease seeks to encompass the breadth of translational implications of cell death, and topics of particular concentration will include, but are not limited to, the following: Experimental medicine Cancer Immunity Internal medicine Neuroscience Cancer metabolism
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