三种 p53 热点突变体体内的差异获得性功能活性。
Differential Gain-of-Function Activity of Three p53 Hotspot Mutants In Vivo.
机构信息
Department of Genetics, The University of Texas MD Anderson Cancer Center, UT Health Graduate School of Biomedical Sciences, Houston, Texas.
Genetics and Epigenetics Graduate Program, The University of Texas MD Anderson Cancer Center, UT Health Graduate School of Biomedical Sciences, Houston, Texas.
出版信息
Cancer Res. 2022 May 16;82(10):1926-1936. doi: 10.1158/0008-5472.CAN-21-3376.
UNLABELLED
The majority of TP53 missense mutations identified in cancer patients are in the DNA-binding domain and are characterized as either structural or contact mutations. These missense mutations exhibit inhibitory effects on wild-type p53 activity. More importantly, these mutations also demonstrate gain-of-function (GOF) activities characterized by increased metastasis, poor prognosis, and drug resistance. To better understand the activities by which TP53 mutations, identified in Li-Fraumeni syndrome, contribute to tumorigenesis, we generated mice harboring a novel germline Trp53R245W allele (contact mutation) and compared them with existing models with Trp53R172H (structural mutation) and Trp53R270H (contact mutation) alleles. Thymocytes from heterozygous mice showed that all three hotspot mutations exhibited similar inhibitory effects on wild-type p53 transcription in vivo, and tumors from these mice had similar levels of loss of heterozygosity. However, the overall survival of Trp53R245W/+ and Trp53R270H/+ mice, but not Trp53R172H/+ mice, was significantly shorter than that of Trp53+/- mice, providing strong evidence for p53-mutant-specific GOF contributions to tumor development. Furthermore, Trp53R245W/+ and Trp53R270H/+ mice had more osteosarcoma metastases than Trp53R172H/+ mice, suggesting that these two contact mutants have stronger GOF in driving osteosarcoma metastasis. Transcriptomic analyses using RNA sequencing data from Trp53R172H/+, Trp53R245W/+, and Trp53R270H/+ primary osteosarcomas in comparison with Trp53+/- indicated that GOF of the three mutants was mediated by distinct pathways. Thus, both the inhibitory effect of mutant over wild-type p53 and GOF activities of mutant p53 contributed to tumorigenesis in vivo. Targeting p53 mutant-specific pathways may be important for therapeutic outcomes in osteosarcoma.
SIGNIFICANCE
p53 hotspot mutants inhibit wild-type p53 similarly but differ in their GOF activities, with stronger tumor-promoting activity in contact mutants and distinct protein partners of each mutant driving tumorigenesis and metastasis.
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在癌症患者中鉴定的大多数 TP53 错义突变位于 DNA 结合域,其特征为结构或接触突变。这些错义突变对野生型 p53 活性表现出抑制作用。更重要的是,这些突变还表现出功能获得(GOF)活性,其特征为转移增加、预后不良和耐药性。为了更好地理解 Li-Fraumeni 综合征中鉴定的 TP53 突变如何促进肿瘤发生,我们生成了携带新型种系 Trp53R245W 等位基因(接触突变)的小鼠,并将其与具有 Trp53R172H(结构突变)和 Trp53R270H(接触突变)等位基因的现有模型进行了比较。杂合子小鼠的胸腺细胞表明,所有三个热点突变在体内对野生型 p53 转录均表现出相似的抑制作用,并且这些小鼠的肿瘤具有相似水平的杂合性丢失。然而,Trp53R245W/+和 Trp53R270H/+ 小鼠的总生存时间明显短于 Trp53+/- 小鼠,这为 p53 突变体特异性 GOF 对肿瘤发展的贡献提供了有力证据。此外,Trp53R245W/+和 Trp53R270H/+ 小鼠的骨肉瘤转移比 Trp53R172H/+ 小鼠更多,表明这两个接触突变体在驱动骨肉瘤转移方面具有更强的 GOF。使用来自 Trp53R172H/ + 、Trp53R245W/ + 和 Trp53R270H/ + 骨肉瘤的 RNA 测序数据的转录组分析与 Trp53+/- 进行比较表明,三个突变体的 GOF 是由不同的途径介导的。因此,突变体对野生型 p53 的抑制作用和突变体 p53 的 GOF 活性均有助于体内肿瘤发生。针对 p53 突变体特异性途径可能对骨肉瘤的治疗结果很重要。
意义
p53 热点突变体相似地抑制野生型 p53,但在其 GOF 活性中存在差异,接触突变体具有更强的促肿瘤活性,并且每个突变体的独特蛋白伴侣驱动肿瘤发生和转移。
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