TP53 或 DNA 损伤修复基因的突变定义了原发性前列腺癌中预后不良的亚组。
Mutations in TP53 or DNA damage repair genes define poor prognostic subgroups in primary prostate cancer.
机构信息
Department of Medical Oncology, National Center for Tumor Diseases (NCT), University Hospital Heidelberg, Im Neuenheimer Feld 460, Heidelberg, Germany.
Institute of Pathology, University Hospital Heidelberg, Im Neuenheimer Feld 224, Heidelberg, Germany.
出版信息
Urol Oncol. 2022 Jan;40(1):8.e11-8.e18. doi: 10.1016/j.urolonc.2021.06.024. Epub 2021 Jul 26.
BACKGROUND
Mutations in DNA damage repair genes, in particular genes involved in homology-directed repair, define a subgroup of men with prostate cancer with a more unfavorable prognosis but a therapeutic vulnerability to PARP inhibition. In current practice, mutational testing of prostate cancer patients is commonly done late i.e., when the tumor is castration resistant. In addition, most sequencing panels do not include TP53, one of the most crucial tumor suppressor genes in human cancer. In this proof-of-concept study, we sought to extend the clinical use of these molecular markers by exploring the early prognostic impact of mutations in TP53 and DNA damage repair genes in men with primary, nonmetastatic prostate cancer undergoing radical prostatectomy (RPX).
METHODS
Tumor specimens from a cohort of 68 RPX patients with intermediate (n = 11, 16.2%) or high-risk (n = 57, 83.8%) disease were analyzed by targeted next generation sequencing using a 37 DNA damage repair and checkpoint gene panel including TP53. Sequencing results were correlated to clinicopathologic variables as well as PSA persistence or time to PSA failure. In addition, the distribution of TP53 and DNA damage repair gene mutations was analyzed in three large publicly available datasets (TCGA, MSKCC and SU2C).
RESULTS
Of 68 primary prostate cancers analyzed, 23 (33.8%) were found to harbor a mutation in either TP53 (n = 12, 17.6%) or a DNA damage repair gene (n = 11, 16.2%). The vast majority of these mutations (22 of 23, 95.7%) were detected in primary tumors from patients with high-risk features. These mutations were mutually exclusive in our cohort and additional data mining suggests an enrichment of DNA damage repair gene mutations in TP53 wild-type tumors. Mutations in either TP53 or a DNA damage repair gene were associated with a significantly worse prognosis after RPX. Importantly, the presence of TP53/DNA damage repair gene mutations was an independent risk factor for PSA failure or PSA persistence in multivariate Cox regression models.
CONCLUSION
TP53 or DNA damage repair gene mutations are frequently detected in primary prostate cancer with high-risk features and define a subgroup of patients with an increased risk for PSA failure or persistence after RPX. The significant adverse impact of these alterations on patient prognosis may be exploited to identify men with prostate cancer who may benefit from a more intensified treatment.
背景
DNA 损伤修复基因的突变,特别是涉及同源定向修复的基因,定义了一组前列腺癌患者预后更差,但对 PARP 抑制治疗更敏感的亚组。在当前的实践中,前列腺癌患者的突变检测通常是在肿瘤去势抵抗时进行的。此外,大多数测序面板不包括 TP53,TP53 是人类癌症中最重要的肿瘤抑制基因之一。在这项概念验证研究中,我们试图通过探索原发性、非转移性前列腺癌患者在接受根治性前列腺切除术 (RPX) 时 TP53 和 DNA 损伤修复基因突变的早期预后影响,来扩展这些分子标志物的临床应用。
方法
对 68 例接受 RPX 的中危 (n=11,16.2%)或高危 (n=57,83.8%)疾病的患者的肿瘤标本进行了靶向下一代测序分析,使用了包括 TP53 在内的 37 个 DNA 损伤修复和检查点基因面板。将测序结果与临床病理变量以及 PSA 持续存在或 PSA 失败时间相关联。此外,还在三个大型公共可用数据集 (TCGA、MSKCC 和 SU2C) 中分析了 TP53 和 DNA 损伤修复基因突变的分布。
结果
在分析的 68 例原发性前列腺癌中,有 23 例 (33.8%)存在 TP53(n=12,17.6%)或 DNA 损伤修复基因(n=11,16.2%)的突变。这些突变中的绝大多数 (23 个中的 22 个,95.7%)是在高危特征患者的原发性肿瘤中检测到的。在我们的队列中,这些突变是相互排斥的,进一步的数据挖掘表明 DNA 损伤修复基因突变在 TP53 野生型肿瘤中富集。在 RPX 后,TP53 或 DNA 损伤修复基因突变与预后显著恶化相关。重要的是,TP53/DNA 损伤修复基因突变是多变量 Cox 回归模型中 PSA 失败或 PSA 持续存在的独立危险因素。
结论
在具有高危特征的原发性前列腺癌中经常检测到 TP53 或 DNA 损伤修复基因突变,并定义了一组 RPX 后 PSA 失败或持续存在风险增加的患者亚组。这些改变对患者预后的显著不利影响可能被利用来识别可能从更强化治疗中获益的前列腺癌患者。
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