分子图谱揭示了卵巢透明细胞癌的新治疗靶点和克隆进化。

IF 3.4 2区医学 Q2 ONCOLOGY

BMC Cancer Pub Date : 2024-11-14 DOI:10.1186/s12885-024-13125-5

Angel Chao, Chen-Yang Huang, Willie Yu, Chiao-Yun Lin, Hao Lin, An-Shine Chao, Cheng-Tao Lin, Hung-Hsueh Chou, Kuang-Gen Huang, Huei-Jean Huang, Ting-Chang Chang, Steven G Rozen, Ren-Chin Wu, Chyong-Huey Lai

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引用次数: 0

摘要

背景：卵巢透明细胞癌（OCCC）在东亚妇女中的发病率极高。与晚期高级别浆液性癌（HGSC）患者相比，确诊为卵巢透明细胞癌的患者往往临床预后较差。OCCC预后不良的部分原因是它经常对常规化疗产生耐药性。在精准医疗的框架下，我们试图利用全外显子组测序对OCCC进行全面的分子鉴定，以发现潜在的分子靶点，为新型治疗策略提供依据：我们对 102 例 OCCC 患者的肿瘤-正常配对样本进行了全基因组测序分析。方法：我们对 102 例 OCCC 患者的肿瘤-正常人配对样本进行了全外显子组测序分析，对大量 OCCC 标本进行了全面的基因组特征描述，并对克隆进展进行了分析：结果：在对102份OCCC样本进行分析后发现，ARID1A（67%）和PIK3CA（49%）是最常发生突变的驱动基因。我们在40%的病例中发现了1级或2级临床可操作分子靶点。这包括DNA错配修复缺陷（1例），以及BRCA2（1例）、PIK3CA（36例）、KRASG12C（1例）和ATM（4例）突变。此外，45% 的 OCCC 样本显示 ARID1A 双重缺失。有趣的是，我们在 TERT 基因的 5' 非翻译区发现了以前未报道过的突变，这些突变具有不良预后意义。时钟样突变过程和激活的 APOBECs 是体细胞点突变的主要驱动因素。DNA错配修复缺陷导致的突变并不常见。克隆进化的重建显示，可能驱动肿瘤发生的早期遗传事件包括ARID1A、PIK3CA、TERT、KRAS和TP53基因的突变：我们的研究全面描述了大量队列中 OCCC 的基因组图谱和克隆进化。这些发现揭示了潜在的可操作分子改变，可用于开发靶向疗法。

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Molecular profiling reveals novel therapeutic targets and clonal evolution in ovarian clear cell carcinoma.

Background: Ovarian clear cell carcinoma (OCCC) has a disproportionately high incidence among women in East Asia. Patients diagnosed with OCCC tend to experience worse clinical outcomes than those with high-grade serous carcinoma (HGSC) at advanced stages. The unfavorable prognosis of OCCC can be partly attributed to its frequent resistance to conventional chemotherapy. Within a precision medicine framework, we sought to provide a comprehensive molecular characterization of OCCC using whole-exome sequencing to uncover potential molecular targets that may inform novel therapeutic strategies.

Methods: We performed whole-exome sequencing analysis on tumor-normal paired samples from 102 OCCC patients. This comprehensive genomic characterization of a substantial cohort of OCCC specimens was coupled with an analysis of clonal progression.

Results: On analyzing 102 OCCC samples, ARID1A (67%) and PIK3CA (49%) emerged as the most frequently mutated driver genes. We identified tier 1 or 2 clinically actionable molecular targets in 40% of cases. This included DNA mismatch repair deficiency (n = 1), as well as BRCA2 (n = 1), PIK3CA (n = 36), KRAS^G12C (n = 1), and ATM (n = 4) mutations. Furthermore, 45% of OCCC samples displayed ARID1A biallelic loss. Interestingly, we identified previously unreported mutations in the 5' untranslated region of the TERT gene that harbored an adverse prognostic significance. Clock-like mutational processes and activated APOBECs were major drivers of somatic point mutations. Mutations arising from DNA mismatch repair deficiency were uncommon. Reconstruction of clonal evolution revealed that early genetic events likely driving tumorigenesis included mutations in the ARID1A, PIK3CA, TERT, KRAS, and TP53 genes.

Conclusions: Our study provides a comprehensive characterization of the genomic landscape and clonal evolution in OCCC within a substantial cohort. These findings unveil potentially actionable molecular alterations that could be leveraged to develop targeted therapies.

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来源期刊

BMC Cancer 医学-肿瘤学

CiteScore

6.00

自引率

2.60%

发文量

1204

审稿时长

6.8 months

期刊介绍： BMC Cancer is an open access, peer-reviewed journal that considers articles on all aspects of cancer research, including the pathophysiology, prevention, diagnosis and treatment of cancers. The journal welcomes submissions concerning molecular and cellular biology, genetics, epidemiology, and clinical trials.