Kim Justin J, Walton Sara A, Mahadevan Navin R, Haradon Jessica, Paoloni Francesco, Paik Paul K, Chaft Jamie E, Hsu Robert, Piha-Paul Sarina A, Jänne Pasi A, Barbie David A, Sholl Lynette M, Dubois Steven G, Hanna Glenn J, Shapiro Geoffrey I, French Christopher A, Luo Jia
Dana-Farber Cancer Institute, Boston, MA, United States.
University of Michigan-Ann Arbor, Ann Arbor, Michigan, United States.
Clin Cancer Res. 2025 Jul 24. doi: 10.1158/1078-0432.CCR-25-1071.
NUT carcinoma (NC) is an underdiagnosed, poorly differentiated squamous cell cancer with a median survival of 6.7 months. Defined by NUTM1 fusions, NC enhances oncogene transcription, including MYC. We investigated the ability of standard next-generation sequencing (NGS) to identify NUTM1 fusions and describe additional molecular features of NC.
This study included 116 NC patients whose tumors underwent broad-panel NGS (>80 genes) of DNA, ctDNA, and/or RNA fusion sequencing between 2013-2024. NGS reports and medical records were manually reviewed.
Of 116 patients (median age 38, 40.5% female), 84.5% had DNA, 12.1% had ctDNA, and 51.7% had RNA fusion testing. In a subset of 100 patients with DNA/ctDNA testing, 92.9% (n=79/85) had <10 pack-years/never-smoking history, and 58.8% (n=47/80) had a BRD4::NUTM1 fusion. Median TMB was 1.0 mut/Mb (range 0.0-16.0; n=71 known), and 19.7% (n=13/66) had PD-L1 expression ≥1%. DNA, ctDNA, RNA fusion, NUT IHC, and NUTM1 FISH detected NC fusions in 21.6%, 21.4%, 83.9%, 100.0%, and 91.9% of tests, respectively. Co-occurring pathogenic mutations included oncogenes PIK3CA, RET, FGFR3, and tumor suppressors ATM and BRCA1 (n=1 each). Secondary genes altered in >5% of NCs included LRP1B (10.4%), MLL2/KMT2D (8.0%), and FAT1 (5.5%); common pathways with mutated genes were epigenetic (57.0%), cell cycle (26.0%), and DNA repair (24.0%).
Standard DNA NGS detects less than a quarter of NUT carcinomas; RNA-based fusion testing, or NUT IHC/NUTM1 FISH, should be routine for suspected NC. NCs are enriched in co-occurring epigenetic, cell cycle, and DNA repair alterations, warranting further evaluation.
NUT癌(NC)是一种诊断不足、低分化的鳞状细胞癌,中位生存期为6.7个月。由NUTM1融合定义,NC增强致癌基因转录,包括MYC。我们研究了标准二代测序(NGS)识别NUTM1融合的能力,并描述了NC的其他分子特征。
本研究纳入了116例NC患者,其肿瘤在2013年至2024年间接受了DNA、循环肿瘤DNA(ctDNA)和/或RNA融合测序的广泛基因检测(>80个基因)。对NGS报告和病历进行了人工审核。
116例患者(中位年龄38岁,40.5%为女性)中,84.5%进行了DNA检测,12.1%进行了ctDNA检测,51.7%进行了RNA融合检测。在100例进行DNA/ctDNA检测的患者亚组中,92.9%(n=79/85)有<10包年/从不吸烟史,58.8%(n=47/80)有BRD4::NUTM1融合。中位肿瘤突变负荷(TMB)为1.0个突变/Mb(范围0.0 - 16.0;n=71例已知),19.7%(n=13/66)的患者程序性死亡受体1配体(PD-L1)表达≥1%。DNA、ctDNA、RNA融合、NUT免疫组化(IHC)和NUTM1荧光原位杂交(FISH)分别在21.6%、21.4%、83.9%、100.0%和91.9%的检测中检测到NC融合。共发生的致病性突变包括致癌基因PIK3CA、RET、FGFR3以及肿瘤抑制基因ATM和BRCA1(各n=1)。在超过5%的NC中发生改变的次要基因包括低密度脂蛋白受体相关蛋白1B(LRP1B,10.4%)、MLL2/KMT2D(8.0%)和FAT1(5.5%);与突变基因相关的常见通路是表观遗传(57.0%)、细胞周期(26.叭)和DNA修复(24.0%)。
标准DNA NGS检测到的NUT癌不到四分之一;对于疑似NC,基于RNA的融合检测或NUT IHC/NUTM1 FISH应作为常规检测。NC富含共发生的表观遗传、细胞周期和DNA修复改变,值得进一步评估。