Abstract
Background: Long non-coding RNA (lncRNA) plays a significant role in the development, establishment, and progression of head and neck squamous cell carcinoma (HNSCC). This article aims to develop an immune-related lncRNA (irlncRNA) model, regardless of expression levels, for risk assessment and prognosis prediction in HNSCC patients. Methods: We obtained clinical data and corresponding full transcriptome expression of HNSCC patients from TCGA, downloaded GTF files to distinguish lncRNAs from Ensembl, discerned irlncRNAs based on co-expression analysis, distinguished differentially expressed irlncRNAs (DEirlncRNAs), and paired these DEirlncRNAs. Univariate Cox regression analysis, LASSO regression analysis, and stepwise multivariate Cox regression analysis were then performed to screen lncRNA pairs, calculate the risk coefficient, and establish a prognosis model. Finally, the predictive power of this model was validated through the AUC and the ROC curves, and the AIC values of each point on the five-year ROC curve were calculated to select the maximum inflection point, which was applied as a cut-off point to divide patients into low- or high-risk groups. Based on this methodology, we were able to more effectively differentiate between these groups in terms of survival, clinico-pathological characteristics, tumor immune infiltrating status, chemotherapeutics sensitivity, and immunosuppressive molecules. Results: A 13-irlncRNA-pair signature was built, and the ROC analysis demonstrated high sensitivity and specificity of this signature for survival prediction. The Kaplan–Meier analysis indicated that the high-risk group had a significantly shorter survival rate than the low-risk group, and the chi-squared test certified that the signature was highly related to survival status, clinical stage, T stage, and N stage. Additionally, the signature was further proven to be an independent prognostic risk factor via the Cox regression analyses, and immune infiltrating analyses showed that the high-risk group had significant negative relationships with various immune infiltrations. Finally, the chemotherapeutics sensitivity and the expression level of molecular markers were also significantly different between high- and low-risk groups. Conclusion: The signature established by paring irlncRNAs, with regard to specific expression levels, can be utilized for survival prediction and to guide clinical therapy in HNSCC.
Highlights
Worldwide, head and neck cancers have yearly incidences of 930,000 cases and 470,000 deaths, involving malignant tumors in the lip, oral cavity, nasopharynx, oropharynx, hypopharynx, and larynx (Sung et al, 2021)
The relationship was calculated based on co-expression analysis between Long non-coding RNA (lncRNA) and immune-related genes
Through iterative loop and 0-or-1 matrix screening, 23,215 DEirlncRNA pairs were obtained from 255 DEirlncRNAs
Summary
Head and neck cancers have yearly incidences of 930,000 cases and 470,000 deaths, involving malignant tumors in the lip, oral cavity, nasopharynx, oropharynx, hypopharynx, and larynx (Sung et al, 2021). Over the past few years, large cohort clinical trials have demonstrated that immunotherapy plays a significant role in the treatment of HNSCC, especially for cases involving immune checkpoint inhibitors (ICIs) (Cramer et al, 2019). ICIs are promising novel agents for malignancies, which work by blocking inhibitory immune checkpoint pathways to reactivate immune responses against cancer, such as anti-programmed death-1 (anti-PD-1), antiprogrammed death-1 ligand (anti-PD-L1), and anti-cytotoxic T-lymphocyte-associated protein 4 (anti-CTLA-4) antibodies (Ferris, 2015). Long non-coding RNA (lncRNA) plays a significant role in the development, establishment, and progression of head and neck squamous cell carcinoma (HNSCC). This article aims to develop an immune-related lncRNA (irlncRNA) model, regardless of expression levels, for risk assessment and prognosis prediction in HNSCC patients
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