Targeting Epigenetic Dysregulations in Head and Neck Squamous Cell Carcinoma

Head and neck squamous cell carcinoma (HNSCC) is one of the deadliest human cancers, with the overall 5-year survival rate stagnating in recent decades due to the lack of innovative treatment approaches. Apart from the recently Food and Drug Administration-approved epidermal growth factor receptor inhibitor and immune checkpoint inhibitor, alternative therapeutic strategies that target epigenetic abnormalities, an emerging cancer hallmark, remain to be fully explored. A pathological epigenetic landscape, characterized by widespread reprogramming of chromatin modifications such as DNA methylation and histone modifications, which drives transcription deregulation and genome reorganization, has been extensively documented in numerous cancers, including HNSCC. Growing evidence indicates that these frequent epigenomic alterations play pivotal roles in regulating malignant transformation, promoting metastasis and invasion, and reshaping the tumor microenvironment. Furthermore, these epigenetic changes also present unique vulnerabilities that open new avenues for identifying novel prognostic biomarkers and developing targeted antitumor therapies. In this review, we summarize recent discoveries of epigenetic dysregulations in HNSCC, with a focus on deregulated chromatin modifications, which include aberrant DNA methylation, oncohistone H3 lysine 36 to methionine (H3K36M) mutation, as well as recurrent mutations or altered expression of chromatin-modifying enzymes such as NSD1, EZH2, and KMT2C/D. Importantly, we discuss the various molecular mechanisms underlying the contributions of these epigenetic alterations to HNSCC development, particularly their involvement in deregulated cell proliferation and cell death, metabolic reprogramming, tumor immune evasion, and phenotypic plasticity. Finally, we conclude by highlighting the translational and clinical implications of targeting the epigenetic machinery, which offers promising prospects for overcoming resistance to conventional radiotherapy/chemotherapy and enhancing the response to immunotherapy in HNSCC.