循环肿瘤 DNA 分析检测转移性乳腺癌芳香化酶抑制剂耐药的演变。
Tracking evolution of aromatase inhibitor resistance with circulating tumour DNA analysis in metastatic breast cancer.
机构信息
Breast Cancer Now Research Centre, Institute of Cancer Research, London, UK.
Breast Unit, Royal Marsden Hospital, London, UK.
出版信息
Ann Oncol. 2018 Jan 1;29(1):145-153. doi: 10.1093/annonc/mdx483.
BACKGROUND
Selection of resistance mutations may play a major role in the development of endocrine resistance. ESR1 mutations are rare in primary breast cancer but have high prevalence in patients treated with aromatase inhibitors (AI) for advanced breast cancer. We investigated the evolution of genetic resistance to the first-line AI therapy using sequential ctDNA sampling in patients with advanced breast cancer.
PATIENTS AND METHODS
Eighty-three patients on the first-line AI therapy for metastatic breast cancer were enrolled in a prospective study. Plasma samples were collected every 3 months to disease progression and ctDNA analysed by digital droplet PCR and enhanced tagged-amplicon sequencing (eTAm-Seq). Mutations identified in progression samples by sequencing were tracked back through samples before progression to study the evolution of mutations on therapy. The frequency of novel mutations was validated in an independent cohort of available baseline plasma samples in the Study of Faslodex versus Exemestane with or without Arimidex (SoFEA) trial, which enrolled patients with prior sensitivity to AI.
RESULTS
Of the 39 patients who progressed on the first-line AI, 56.4% (22/39) had ESR1 mutations detectable at progression, which were polyclonal in 40.9% (9/22) patients. In serial tracking, ESR1 mutations were detectable median 6.7 months (95% confidence interval 3.7-NA) before clinical progression. Utilising eTAm-Seq ctDNA sequencing of progression plasma, ESR1 mutations were demonstrated to be sub-clonal in 72.2% (13/18) patients. Mutations in RAS genes were identified in 15.4% (6/39) of progressing patients (4 KRAS, 1 HRAS, 1 NRAS). In SoFEA, KRAS mutations were detected in 21.2% (24/113) patients although there was no evidence that KRAS mutation status was prognostic for progression free or overall survival.
CONCLUSIONS
Cancers progressing on the first-line AI show high levels of genetic heterogeneity, with frequent sub-clonal mutations. Sub-clonal KRAS mutations are found at high frequency. The genetic diversity of AI resistant cancers may limit subsequent targeted therapy approaches.
背景
耐药突变的选择可能在激素抵抗的发生中起主要作用。ESR1 突变在原发性乳腺癌中罕见,但在接受芳香化酶抑制剂(AI)治疗晚期乳腺癌的患者中普遍存在。我们通过对接受一线 AI 治疗的晚期乳腺癌患者进行连续 ctDNA 采样,研究了对一线 AI 治疗的遗传耐药性的演变。
患者和方法
83 例接受转移性乳腺癌一线 AI 治疗的患者入组了一项前瞻性研究。每 3 个月采集一次血浆样本,直至疾病进展,通过数字液滴 PCR 和增强标记扩增子测序(eTAm-Seq)对 ctDNA 进行分析。通过测序在进展样本中鉴定出的突变通过在治疗前进展样本中进行回溯,以研究治疗过程中突变的演变。在 Study of Faslodex versus Exemestane with or without Arimidex(SoFEA)试验中,对可用的基线血浆样本中独立队列中新型突变的频率进行了验证,该试验入组了对 AI 有既往敏感性的患者。
结果
在一线 AI 治疗中进展的 39 例患者中,56.4%(22/39)在进展时可检测到 ESR1 突变,其中 40.9%(9/22)为多克隆。在连续跟踪中,ESR1 突变在临床进展前中位 6.7 个月(95%置信区间 3.7-NR)可检测到。通过进展血浆的 eTAm-Seq ctDNA 测序,在 72.2%(13/18)的患者中证实 ESR1 突变呈亚克隆。在进展患者中检测到 RAS 基因突变的有 15.4%(6/39)(4 个 KRAS、1 个 HRAS、1 个 NRAS)。在 SoFEA 中,在 113 例患者中检测到 KRAS 突变,占 21.2%,尽管没有证据表明 KRAS 突变状态与无进展生存期或总生存期有关。
结论
一线 AI 治疗进展的癌症表现出高度的遗传异质性,经常出现亚克隆突变。亚克隆 KRAS 突变高频出现。AI 耐药性癌症的遗传多样性可能限制后续的靶向治疗方法。
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