阐明指挥链:我们目前对 p53 介导的肿瘤抑制关键靶基因的了解。

IF 6.2 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Critical Reviews in Biochemistry and Molecular Biology Pub Date : 2024-04-25 DOI:10.1080/10409238.2024.2344465
Alexandra Indeglia, Maureen E Murphy
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引用次数: 0

摘要

TP53 是一种转录因子,主要参与多种途径,包括控制新陈代谢、应激反应、DNA 修复、细胞周期停滞、衰老、细胞程序性死亡等。自四十多年前发现 TP53 是癌症中最常发生突变的肿瘤抑制基因以来,该领域一直专注于发现这种转录因子对抑制肿瘤至关重要的靶基因。然而,这种探索充满了陷阱。人们发现了数十个 p53 靶基因,这些基因在抑制肿瘤方面具有合乎逻辑的作用,但随后的数据显示,大多数基因并不具有抑制肿瘤的作用,而且对于 p53 介导的肿瘤抑制来说也是可有可无的。在这篇综述中,我们重点关注两类 p53 转录靶标:(1) CDKN1A (p21) 和 BBC3 (PUMA)等典型靶基因,它们在 p53 介导的细胞周期停滞/衰老和细胞死亡中显然起着关键作用,但在癌症中并没有发生突变,而且基因敲除小鼠也不会发生自发性肿瘤;(2) 一小类最近描述的 p53 靶基因,它们在人类癌症中发生突变,而且似乎对 p53 的肿瘤抑制作用至关重要。有趣的是,这些基因中有许多编码的蛋白质控制着广泛的细胞通路,如剪接和蛋白质降解,其中有几个编码的蛋白质能反馈调节 p53。这些基因包括 ZMAT3、GLS2、PADI4、ZBXW7、RFX7 和 BTG2。这些研究结果为了解 p53 在抑制肿瘤中的作用提供了一个更加复杂但令人兴奋的潜在框架。
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Elucidating the chain of command: our current understanding of critical target genes for p53-mediated tumor suppression.
TP53 encodes a transcription factor that is centrally-involved in several pathways, including the control of metabolism, the stress response, DNA repair, cell cycle arrest, senescence, programmed cell death, and others. Since the discovery of TP53 as the most frequently-mutated tumor suppressor gene in cancer over four decades ago, the field has focused on uncovering target genes of this transcription factor that are essential for tumor suppression. This search has been fraught with red herrings, however. Dozens of p53 target genes were discovered that had logical roles in tumor suppression, but subsequent data showed that most were not tumor suppressive, and were dispensable for p53-mediated tumor suppression. In this review, we focus on p53 transcriptional targets in two categories: (1) canonical targets like CDKN1A (p21) and BBC3 (PUMA), which clearly play critical roles in p53-mediated cell cycle arrest/senescence and cell death, but which are not mutated in cancer, and for which knockout mice fail to develop spontaneous tumors; and (2) a smaller category of recently-described p53 target genes that are mutated in human cancer, and which appear to be critical for tumor suppression by p53. Interestingly, many of these genes encode proteins that control broad cellular pathways, like splicing and protein degradation, and several of them encode proteins that feed back to regulate p53. These include ZMAT3, GLS2, PADI4, ZBXW7, RFX7, and BTG2. The findings from these studies provide a more complex, but exciting, potential framework for understanding the role of p53 in tumor suppression.
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CiteScore
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期刊介绍: As the discipline of biochemistry and molecular biology have greatly advanced in the last quarter century, significant contributions have been made towards the advancement of general medicine, genetics, immunology, developmental biology, and biophysics. Investigators in a wide range of disciplines increasingly require an appreciation of the significance of current biochemical and molecular biology advances while, members of the biochemical and molecular biology community itself seek concise information on advances in areas remote from their own specialties. Critical Reviews in Biochemistry and Molecular Biology believes that well-written review articles prove an effective device for the integration and meaningful comprehension of vast, often contradictory, literature. Review articles also provide an opportunity for creative scholarship by synthesizing known facts, fruitful hypotheses, and new concepts. Accordingly, Critical Reviews in Biochemistry and Molecular Biology publishes high-quality reviews that organize, evaluate, and present the current status of high-impact, current issues in the area of biochemistry and molecular biology. Topics are selected on the advice of an advisory board of outstanding scientists, who also suggest authors of special competence. The topics chosen are sufficiently broad to interest a wide audience of readers, yet focused enough to be within the competence of a single author. Authors are chosen based on their activity in the field and their proven ability to produce a well-written publication.
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