Department of Pathology, Massachusetts General Hospital, Boston, Massachusetts, USA.
Broad Institute of Harvard and Massachusetts Institute of Technology, Cambridge, Massachusetts, USA.
J Invest Dermatol. 2021 May;141(5):1207-1218. doi: 10.1016/j.jid.2020.10.018. Epub 2020 Nov 16.
Basal cell carcinoma (BCC) and squamous cell carcinoma (SCC) are both derived from epidermal keratinocytes but are phenotypically diverse. To improve the understanding of keratinocyte carcinogenesis, it is critical to understand epigenetic alterations, especially those that govern gene expression. We examined changes to the enhancer-associated histone acetylation mark H3K27ac by mapping matched tumor-normal pairs from 11 patients (five with BCC and six with SCC) undergoing Mohs surgery. Our analysis uncovered cancer-specific enhancers on the basis of differential H3K27ac peaks between matched tumor-normal pairs. We also uncovered biological pathways potentially altered in keratinocyte carcinoma, including enriched epidermal development and Wnt signaling pathways enriched in BCCs and enriched immune response and cell activation pathways in SCCs. We also observed enrichment of transcription factors that implicated SMAD and JDP2 in BCC pathogenesis and FOXP1 in SCC pathogenesis. On the basis of these findings, we prioritized three loci with putative regulation events (FGFR2 enhancer in BCC, intragenic regulation of FOXP1 in SCC, and WNT5A promoter in both subtypes) and validated our findings with published gene expression data. Our findings highlight unique and shared epigenetic alterations in histone modifications and potential regulators for BCCs and SCCs that likely impact the divergent oncogenic pathways, paving the way for targeted drug discoveries.
基底细胞癌 (BCC) 和鳞状细胞癌 (SCC) 均源于表皮角质形成细胞,但表型多样。为了更好地理解角质形成细胞癌变,了解表观遗传改变(尤其是那些调控基因表达的改变)至关重要。我们通过对 11 名接受 Mohs 手术的患者(5 名 BCC,6 名 SCC)的配对肿瘤-正常组织进行分析,研究了增强子相关组蛋白乙酰化标记 H3K27ac 的变化。我们的分析基于配对肿瘤-正常组织之间 H3K27ac 峰的差异,发现了癌症特异性增强子。我们还发现了角质形成细胞癌中可能改变的生物学途径,包括在 BCC 中富集的表皮发育和 Wnt 信号通路,以及在 SCC 中富集的免疫反应和细胞激活途径。我们还观察到转录因子的富集,这些转录因子暗示 SMAD 和 JDP2 参与 BCC 的发病机制,FOXP1 参与 SCC 的发病机制。基于这些发现,我们对三个具有潜在调控事件的位点进行了优先级排序(BCC 中的 FGFR2 增强子、SCC 中 FOXP1 的基因内调控以及两种亚型中的 WNT5A 启动子),并利用已发表的基因表达数据验证了我们的发现。我们的研究结果突出了 BCC 和 SCC 中独特和共享的组蛋白修饰和潜在调控因子的表观遗传改变,这些改变可能影响不同的致癌途径,为靶向药物发现铺平了道路。
