IFOM-ETS, the AIRC Institute of Molecular Oncology, Milan, Italy.
Cogentech Società Benefit srl, Milan, Italy.
Cancer Res. 2024 Jan 2;84(1):133-153. doi: 10.1158/0008-5472.CAN-23-1129.
Enhancers are noncoding regulatory DNA regions that modulate the transcription of target genes, often over large distances along with the genomic sequence. Enhancer alterations have been associated with various pathological conditions, including cancer. However, the identification and characterization of somatic mutations in noncoding regulatory regions with a functional effect on tumorigenesis and prognosis remain a major challenge. Here, we present a strategy for detecting and characterizing enhancer mutations in a genome-wide analysis of patient cohorts, across three lung cancer subtypes. Lung tissue-specific enhancers were defined by integrating experimental data and public epigenomic profiles, and the genome-wide enhancer-target gene regulatory network of lung cells was constructed by integrating chromatin three-dimensional architecture data. Lung cancers possessed a similar mutation burden at tissue-specific enhancers and exons but with differences in their mutation signatures. Functionally relevant alterations were prioritized on the basis of the pathway-level integration of the effect of a mutation and the frequency of mutations on individual enhancers. The genes enriched for mutated enhancers converged on the regulation of key biological processes and pathways relevant to tumor biology. Recurrent mutations in individual enhancers also affected the expression of target genes, with potential relevance for patient prognosis. Together, these findings show that noncoding regulatory mutations have a potential relevance for cancer pathogenesis and can be exploited for patient classification.
Mapping enhancer-target gene regulatory interactions and analyzing enhancer mutations at the level of their target genes and pathways reveal convergence of recurrent enhancer mutations on biological processes involved in tumorigenesis and prognosis.
增强子是非编码调节 DNA 区域,可调节靶基因的转录,通常与基因组序列一起沿着长距离调节。增强子的改变与各种病理状况有关,包括癌症。然而,识别和描述具有功能影响肿瘤发生和预后的非编码调节区域中的体细胞突变仍然是一个主要挑战。在这里,我们提出了一种在三个肺癌亚型的患者队列的全基因组分析中检测和描述增强子突变的策略。通过整合实验数据和公共表观基因组图谱,定义了肺组织特异性增强子,并通过整合染色质三维结构数据构建了肺细胞的全基因组增强子-靶基因调控网络。肺癌在组织特异性增强子和外显子中具有相似的突变负担,但突变特征存在差异。基于突变对单个增强子的影响和突变频率的通路水平整合,对功能相关的改变进行了优先级排序。富含突变增强子的基因集中在与肿瘤生物学相关的关键生物学过程和途径的调控上。个别增强子中的反复突变也影响了靶基因的表达,这可能与患者的预后有关。总之,这些发现表明,非编码调节突变与癌症发病机制有关,可用于患者分类。
绘制增强子-靶基因调控相互作用,并在其靶基因和途径水平上分析增强子突变,揭示了反复出现的增强子突变在肿瘤发生和预后相关的生物学过程上的收敛。
