Abstract
BackgroundPartial epithelial-mesenchymal transition (p-EMT) is a distinct clinicopathological feature prevalent in oral cavity tumors of The Cancer Genome Atlas. Located at the invasion front, p-EMT cells require additional support from the tumor stroma for collective cell migration, including track clearing, extracellular matrix remodeling and immune evasion. The pathological roles of otherwise nonmalignant cancer-associated fibroblasts (CAFs) in cancer progression are emerging.MethodsGene set enrichment analysis was used to reveal differentially enriched genes and molecular pathways in OC3 and TW2.6 xenograft tissues, representing mesenchymal and p-EMT tumors, respectively. R packages of genomic data science were executed for statistical evaluations and data visualization. Immunohistochemistry and Alcian blue staining were conducted to validate the bioinformatic results. Univariate and multivariate Cox proportional hazards models were performed to identify covariates significantly associated with overall survival in clinical datasets. Kaplan–Meier curves of estimated overall survival were compared for statistical difference using the log-rank test.ResultsCompared to mesenchymal OC3 cells, tumor stroma derived from p-EMT TW2.6 cells was significantly enriched in microvessel density, tumor-excluded macrophages, inflammatory CAFs, and extracellular hyaluronan deposition. By translating these results to clinical transcriptomic datasets of oral cancer specimens, including the Puram single-cell RNA-seq cohort comprising ~6000 cells, we identified the expression of stromal TGFBI and HYAL1 as independent poor and protective biomarkers, respectively, for 40 Taiwanese oral cancer tissues that were all derived from betel quid users. In The Cancer Genome Atlas, TGFBI was a poor marker not only for head and neck cancer but also for additional six cancer types and HYAL1 was a good indicator for four tumor cohorts, suggesting common stromal effects existing in different cancer types.ConclusionsAs the tumor stroma coevolves with cancer progression, the cellular origins of molecular markers identified from conventional whole tissue mRNA-based analyses should be cautiously interpreted. By incorporating disease-matched xenograft tissue and single-cell RNA-seq results, we suggested that TGFBI and HYAL1, primarily expressed by stromal CAFs and endothelial cells, respectively, could serve as robust prognostic biomarkers for oral cancer control.
Highlights
In Taiwan, the population of betel quid users significantly declined via a successful nationwide oral cancer screening program initiated 22 years ago
Exploratory analysis of differentially expressed genes (DEGs) in the OC3 and TW2.6 xenograft tissues revealed that [1] compared to the OC3 cells expressing various innate immunity responsive genes, TW2.6 cells expressed MYC and E2F targets involved in cell proliferation and cell adhesion (Supplementary Figure 1A); [2] compared to the OC3 stroma harboring various extracellular matrix (ECM)- and TGFb axis-related transcripts, the TW2.6 stroma was characterized by proangiogenic factors and immune-related genes
Gene set enrichment analysis (GSEA) confirmed that while the epithelial-mesenchymal transition hallmark is uniquely enriched in the OC3 stroma, angiogenesis and immune-related molecular processes are recurrently detected in the TW2.6 stromal compartment (Supplementary Figure 1B)
Summary
In Taiwan, the population of betel quid users significantly declined via a successful nationwide oral cancer screening program initiated 22 years ago. A retrospective study indicated that approximately one-third of oral cancer patients had local recurrence (34.6%, 146/422), and approximately one-fifth of 5-year survivors still experienced recurrence (18.1%, 23/127) [2]. These data prompted local researchers to devote more efforts to encouraging hesitant patients for curative surgery [3], setting optimal measures for adjuvant radiotherapy (50–60 Gy) [4] and adequate surgical margins (≥ 5 mm for good overall survival) [5], among others. In contrast to fully mesenchymal cancer cells that invade alone, p-EMT cells migrate collectively and directionally in the tumor stroma, notably angiolymphatic and perineural invasions. The pathological roles of otherwise nonmalignant cancerassociated fibroblasts (CAFs) in cancer progression are emerging
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