Abstract
The mechanisms driving the progression of vocal cord leukoplakia (VCL) to laryngeal squamous cell carcinoma (LSCC) remain unclear, posing a significant barrier to the effective prevention, early diagnosis, and targeted treatment of LSCC. Therefore, it is essential to characterize the cellular microenvironmental differences between VCL and LSCC at single-cell resolution.
In the study, we conducted single-cell RNA sequencing and spatial transcriptomics on surgical tissue specimens obtained from 36 patients diagnosed with vocal cord polyps (VCP), VCL, and LSCC.
Our study generated the first single-cell atlas of VCP and VCL while expanding the cancer cell atlas of LSCC. This dataset comprises 318,907 cells and 12,679 spatial transcriptomic spots, allowing the identification of distinct cellular subclusters. We observed that VCL, as a transitional lesion between benign and malignant states, exhibits a hybrid microenvironment that mirrors VCP and LSCC, with early signs of immunosuppressive activity. Immunoregulatory cell populations demonstrate significant gene expression and functional pathway differences between VCL and LSCC.
Our single-cell RNA sequencing and spatial transcriptomics analyses revealed the cellular heterogeneity underlying benign, precancerous, and malignant laryngeal lesions. We identified epithelial subclusters in VCL with malignant potential and observed shared immunosuppressive features with LSCC, suggesting their role in disease progression. These findings provide valuable insights into the molecular transition from VCL to LSCC and emphasize potential targets for early diagnosis and therapeutic intervention.
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