MDM2、MDMX 和 p73 在野生型 p53 缺失的情况下调节细胞周期进程。

MDM2, MDMX, and p73 regulate cell-cycle progression in the absence of wild-type p53.

机构信息

Department of Biological Sciences, Columbia University, New York, NY 10027.

Integrated Program in Cellular, Molecular, and Biomedical Studies, Columbia University, New York, NY 10032.

出版信息

Proc Natl Acad Sci U S A. 2021 Nov 2;118(44). doi: 10.1073/pnas.2102420118.

DOI:10.1073/pnas.2102420118

PMID:34716260

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8612355/

Abstract

The p53 tumor suppressor protein, known to be critically important in several processes including cell-cycle arrest and apoptosis, is highly regulated by multiple mechanisms, most certifiably the Murine Double Minute 2-Murine Double Minute X (MDM2-MDMX) heterodimer. The role of MDM2-MDMX in cell-cycle regulation through inhibition of p53 has been well established. Here we report that in cells either lacking p53 or expressing certain tumor-derived mutant forms of p53, loss of endogenous MDM2 or MDMX, or inhibition of E3 ligase activity of the heterocomplex, causes cell-cycle arrest. This arrest is correlated with a reduction in E2F1, E2F3, and p73 levels. Remarkably, direct ablation of endogenous p73 produces a similar effect on the cell cycle and the expression of certain E2F family members at both protein and messenger RNA levels. These data suggest that MDM2 and MDMX, working at least in part as a heterocomplex, may play a p53-independent role in maintaining cell-cycle progression by promoting the activity of E2F family members as well as p73, making them a potential target of interest in cancers lacking wild-type p53.

摘要

p53 肿瘤抑制蛋白在包括细胞周期停滞和细胞凋亡在内的多个过程中具有至关重要的作用，其受到多种机制的高度调控，最显著的是鼠双微体 2-鼠双微体 X（MDM2-MDMX）异二聚体。MDM2-MDMX 通过抑制 p53 在细胞周期调控中的作用已得到充分证实。在这里，我们报告称，在缺乏 p53 或表达某些肿瘤衍生的 p53 突变形式的细胞中，内源性 MDM2 或 MDMX 的缺失，或 E3 连接酶活性的抑制，会导致细胞周期停滞。这种停滞与 E2F1、E2F3 和 p73 水平的降低有关。值得注意的是，内源性 p73 的直接消融会对细胞周期产生类似的影响，并在蛋白质和信使 RNA 水平上对某些 E2F 家族成员的表达产生类似的影响。这些数据表明，MDM2 和 MDMX 作为异二聚体至少部分地发挥作用，通过促进 E2F 家族成员以及 p73 的活性，可能在维持细胞周期进展方面发挥着 p53 非依赖性作用，使它们成为缺乏野生型 p53 的癌症的潜在治疗靶点。

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