AI Article Synopsis
- Current classifiers for identifying malignant vs. benign pulmonary nodules are not very effective or practical, which prompted a study to create a new gene classifier for lung cancer diagnosis.
- The researchers used a method called weighted gene co-expression network analysis to analyze gene expression data and identified three key gene modules linked to malignant nodules, focusing on pathways related to metabolism and immune response.
- The final nine-gene classifier created from this analysis showed good accuracy and outperformed existing models, with validation in different cohorts, highlighting the role of metabolic changes in distinguishing between benign and malignant pulmonary nodules.
Article Abstract
The current existing classifiers for distinguishing malignant from benign pulmonary nodules is limited by effectiveness or clinical practicality. In our study, we aimed to develop and validate a gene classifier for lung cancer diagnosis. To identify the genes involved in this process, we used the weighted gene co-expression network analysis to analyze gene expression datasets from Gene Expression Omnibus (GEO). We identified the three most relevant modules associated with malignant nodules and performed functional enrichment analysis on them. The results indicated significant involvement in metabolic, immune-related, cell cycle, and viral-related processes. All three modules showed enrichment in metabolic reprogramming pathways. Based on these genes, we intersected genes from the three modules with metabolic reprogramming-related genes and further intersected with differentially expressed genes to get 78 genes. After machine learning algorithms and manual selection, we finally got a nine-gene classifier consisting of SEC24D, RPSA, PSME3, PSMD8, PSMB7, NCOA1, MED12, LPCAT1, and AKR1C3. Our developed and validated classifier-based model demonstrated good discrimination, with an area under the curve (AUC) of 0.763 in the development cohort, 0.744 in the internal validation cohort, and 0.718 in the external validation cohort, and outperformed previous clinical models. Moreover, the addition of nodule size improved the predictive capability of the classifier. We further verify the expression of the gene in the classifier using TCGA lung cancer samples and found eight of the genes showed significant differential expression in lung adenocarcinoma while all nine genes showed significant differential expression in lung squamous carcinoma. Our findings underscore the significance of metabolic reprogramming pathways in patients with malignant pulmonary nodules, and our gene classifier can assist clinicians in differentiating benign from malignant pulmonary nodules in clinical settings.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11409088 | PMC |
| http://dx.doi.org/10.1016/j.heliyon.2024.e37214 | DOI Listing |
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