Identifying Therapeutically Targetable Tumour-Immune Interactions in Small Cell Lung Cancer

Author ORCID Identifier

000000028452608X

Location

Caesars Windsor Convention Centre, Room: AUGUSTUS III

Event Website

https://wesparkconference.com/

Start Date

22-3-2025 8:00 AM

End Date

22-3-2025 5:30 PM

Description

Small cell lung cancer (SCLC) is a highly aggressive metastatic lung cancer, accounting for 15% of all cases with poor survival outcomes revealing the necessity to produce novel therapeutic strategies. Recent studies show that SCLC has significant tumour heterogeneity with varying gene expression, presenting an opportunity to use machine learning-driven algorithms with a promising route to uncover its underlying mechanisms. This study leverages single-cell RNA sequencing (scRNA-seq) datasets, and machine learning (ML) to explore tumour heterogeneity, identify biomarkers predictive of novel therapeutic targets, and generate graphical predictions of tumour-immune interactions in SCLC patients. We will use published datasets to identify the cellular basis of tumour-immune interactions and identify gene expression changes within SCLC cells. Pathway analysis and biological validation will extend the results to molecular signalling pathways. Then we will conduct a literature search for the selected genes that are known to disrupt cellular interactions distinctive of SCLC to be further tested by the lung cancer research team in pre-clinical models. Our preliminary analysis shows promising outcomes producing key biomarkers in SCLC stage and treatment groups across immune and epithelial cell subtypes. Genes including RBP1 and CD74 were identified with strong protective effects and further exploration of these genes can highlight specific-stage molecular drivers to guide the ML models. Incorporating advanced models may yield more accurate predictions and improved biomarker discovery with clinical significance. In summary, this study aims to identify novel biomarker targets and therapeutic strategies that can be validated in pre-clinical models and translated into clinical applications.

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Mar 22nd, 8:00 AM Mar 22nd, 5:30 PM

Identifying Therapeutically Targetable Tumour-Immune Interactions in Small Cell Lung Cancer

Caesars Windsor Convention Centre, Room: AUGUSTUS III

Small cell lung cancer (SCLC) is a highly aggressive metastatic lung cancer, accounting for 15% of all cases with poor survival outcomes revealing the necessity to produce novel therapeutic strategies. Recent studies show that SCLC has significant tumour heterogeneity with varying gene expression, presenting an opportunity to use machine learning-driven algorithms with a promising route to uncover its underlying mechanisms. This study leverages single-cell RNA sequencing (scRNA-seq) datasets, and machine learning (ML) to explore tumour heterogeneity, identify biomarkers predictive of novel therapeutic targets, and generate graphical predictions of tumour-immune interactions in SCLC patients. We will use published datasets to identify the cellular basis of tumour-immune interactions and identify gene expression changes within SCLC cells. Pathway analysis and biological validation will extend the results to molecular signalling pathways. Then we will conduct a literature search for the selected genes that are known to disrupt cellular interactions distinctive of SCLC to be further tested by the lung cancer research team in pre-clinical models. Our preliminary analysis shows promising outcomes producing key biomarkers in SCLC stage and treatment groups across immune and epithelial cell subtypes. Genes including RBP1 and CD74 were identified with strong protective effects and further exploration of these genes can highlight specific-stage molecular drivers to guide the ML models. Incorporating advanced models may yield more accurate predictions and improved biomarker discovery with clinical significance. In summary, this study aims to identify novel biomarker targets and therapeutic strategies that can be validated in pre-clinical models and translated into clinical applications.

https://scholar.uwindsor.ca/we-spark-conference/2025/postersessions/142