Foundation Medicine Inc, Cambridge, Massachusetts.
Department of Pathology and Laboratory Medicine, Albany Medical College, Albany, New York.
JAMA Oncol. 2015 Apr;1(1):40-49. doi: 10.1001/jamaoncol.2014.216.
For carcinoma of unknown primary site (CUP), determining the primary tumor site may be uninformative and often does not improve outcome.
To discover opportunities for targeted therapies in patients with CUP not currently searched for in routine practice.
DESIGN, SETTING, AND PARTICIPANTS: Comprehensive genomic profiling on 200 CUP formalin-fixed paraffin-embedded specimens (mean, 756× coverage) using the hybrid-capture-based FoundationOne assay at academic and community oncology clinics.
Presence of targetable genomic alterations (GAs) in CUP and responses to targeted therapies.
There were 125 adenocarcinomas of unknown primary site (ACUPs) and 75 carcinomas of unknown primary site without features of adenocarcinoma (non-ACUPs). At least 1 GA was found in 192 (96%) of CUP specimens, with a mean (SD) of 4.2 (2.8) GAs per tumor. The most frequent GAs were in TP53 (110 [55%]), KRAS (40 [20%]), CDKN2A (37 [19%]), MYC (23 [12%]), ARID1A (21 [11%]), MCL1 (19 [10%]), PIK3CA (17 [9%]), ERBB2 (16 [8%]), PTEN (14 [7%]), EGFR (12 [6%]), SMAD4 (13 [7%]), STK11 (13 [7%]), SMARCA4 (12 [6%]), RB1 (12 [6%]), RICTOR (12 [6%]), MLL2 (12 [6%]), BRAF (11 [6%]), and BRCA2 (11 [6%]). One or more potentially targetable GAs were identified in 169 of 200 (85%) CUP specimens. Mutations or amplifications of ERBB2 were more frequent in ACUPs (13 [10%]) than in non-ACUPs (3 [4%]). Alterations of EGFR (10 [8%] vs 2 [3%]) and BRAF (8 [6%] vs 3 [4%]) were more common in ACUPs than in non-ACUPs. Strikingly, clinically relevant alterations in the receptor tyrosine kinase (RTK)/Ras signaling pathway including alterations in ALK, ARAF, BRAF, EGFR, FGFR1, FGFR2, KIT, KRAS, MAP2K1, MET, NF1, NF2, NRAS, RAF1, RET, and ROS1 were found in 90 (72%) ACUPs but in only 29 (39%) non-ACUPs (P < .001).
Almost all CUP samples harbored at least 1 clinically relevant GA with potential to influence and personalize therapy. The ACUP tumors were more frequently driven by GAs in the highly druggable RTK/Ras/mitogen-activated protein kinase (MAPK) signaling pathway than the non-ACUP tumors. Comprehensive genomic profiling can identify novel treatment paradigms to address the limited options and poor prognoses of patients with CUP.
对于不明原发部位癌(CUP),确定原发肿瘤部位可能没有信息,而且通常不会改善预后。
在常规实践中未搜索到的情况下,发现 CUP 患者中靶向治疗的机会。
设计、地点和参与者:在学术和社区肿瘤诊所使用基于杂交捕获的 FoundationOne 检测对 200 例福尔马林固定石蜡包埋的 CUP 标本(平均,756×覆盖)进行综合基因组分析。
CUP 中存在可靶向基因组改变(GA)和对靶向治疗的反应。
有 125 例不明原发部位腺癌(ACUP)和 75 例无腺癌特征的不明原发部位癌(非-ACUP)。至少发现 1 个 GA 在 192 例(96%)CUP 标本中存在,平均(SD)每个肿瘤存在 4.2(2.8)个 GA。最常见的 GA 是 TP53(110 [55%])、KRAS(40 [20%])、CDKN2A(37 [19%])、MYC(23 [12%])、ARID1A(21 [11%])、MCL1(19 [10%])、PIK3CA(17 [9%])、ERBB2(16 [8%])、PTEN(14 [7%])、EGFR(12 [6%])、SMAD4(13 [7%])、STK11(13 [7%])、SMARCA4(12 [6%])、RB1(12 [6%])、RICTOR(12 [6%])、MLL2(12 [6%])、BRAF(11 [6%])和 BRCA2(11 [6%])。在 200 例 CUP 标本中,有 169 例(85%)发现了一个或多个潜在的可靶向 GA。ERBB2 的突变或扩增在 ACUP 中更为常见(13 [10%]),而非 ACUP 中则为 3 [4%]。EGFR(10 [8%] 比 2 [3%])和 BRAF(8 [6%] 比 3 [4%])的改变在 ACUP 中更为常见。引人注目的是,受体酪氨酸激酶(RTK)/Ras 信号通路中的临床相关改变,包括 ALK、ARAF、BRAF、EGFR、FGFR1、FGFR2、KIT、KRAS、MAP2K1、MET、NF1、NF2、NRAS、RAF1、RET 和 ROS1 的改变,在 90 例(72%)ACUP 中发现,但在仅 29 例(39%)非 ACUP 中发现(P < .001)。
几乎所有 CUP 样本都至少携带 1 个具有潜在影响和个性化治疗能力的临床相关 GA。与非 ACUP 肿瘤相比,ACUP 肿瘤中更频繁地受到高度可药物作用的 RTK/Ras/丝裂原激活蛋白激酶(MAPK)信号通路中的 GA 驱动。综合基因组分析可以确定新的治疗方案,以解决 CUP 患者选择有限和预后不良的问题。