Single-Cell Transcriptomics in Triple-Negative Breast Cancer: Implications for Radionuclide Therapy in Precision Oncology
Xiaoxiao Xing, Huihuan Yu, Songliang ZhangBackground:
Triple-negative breast cancer (TNBC) remains one of the most clinically challenging malignancies, characterized by aggressive behavior, high metastatic propensity, and limited therapeutic options. Conventional chemotherapy and immunotherapy have demonstrated only partial efficacy, underscoring the urgent need for novel precision oncology strategies. Radionuclide therapy, including targeted radioligand therapy and theranostic approaches, has emerged as a transformative modality in precision oncology, yet its application in TNBC is constrained by an incomplete understanding of molecular targets and tumor microenvironment heterogeneity. Single-cell RNA sequencing (scRNA-seq) provides unprecedented resolution for characterizing gene expression profiles and cellular heterogeneity within the TNBC ecosystem.
Methods:
TNBC scRNA-seq data (GSE155109) were analyzed using Scanpy for quality control, dimensionality reduction, and cluster annotation. Mendelian randomization (MR) and summary-based MR analyses were employed to identify causal associations between biomarkers, gene expression levels (
Results:
Single-cell analysis resolved 18 transcriptionally distinct clusters, reflecting the complex cellular architecture of the TNBC tumor microenvironment. Risk genes including
Conclusions:
This study systematically elucidated gene expression characteristics and cellular heterogeneity in TNBC through single-cell transcriptomics, identifying key risk and protective genes with potential theranostic relevance. The identified molecular signatures represent a roadmap for developing radionuclide therapy approaches tailored to precision oncology management of TNBC.