CD19Ki67B cells regulated by NAMPT as key modulators in triple-negative breast cancer with brain metastasis.
[BACKGROUND] Among breast cancer subtypes, triple-negative breast cancer (TNBC) stands out for its aggressiveness and high frequency of brain metastases.
APA
Zhou Q, Zhu Z, et al. (2026). CD19Ki67B cells regulated by NAMPT as key modulators in triple-negative breast cancer with brain metastasis.. Breast cancer research : BCR, 28(1). https://doi.org/10.1186/s13058-026-02251-6
MLA
Zhou Q, et al.. "CD19Ki67B cells regulated by NAMPT as key modulators in triple-negative breast cancer with brain metastasis.." Breast cancer research : BCR, vol. 28, no. 1, 2026.
PMID
41803986
Abstract
[BACKGROUND] Among breast cancer subtypes, triple-negative breast cancer (TNBC) stands out for its aggressiveness and high frequency of brain metastases. However, the mechanisms driving BrM remain poorly understood.
[METHODS] We performed integrated single-cell RNA sequencing (scRNA-seq) analysis of TNBC among 15 patients (8 with metastases, 7 without) and combined these data with transcriptomic profiles of BrM from public datasets. B cell heterogeneity was characterized, and the prognostic value of cycling B cells (CD19Ki67) was validated in two independent RNA-seq cohorts (TCGA, GSE65194) and a Xiangya real-world cohort. Functional assays were performed using TNBC-derived organoids co-cultured with CD19Ki67 B cells, and multiplex immunofluorescence was used to evaluate activation of signaling pathways.
[RESULTS] scRNA-seq revealed significant enrichment of cycling B cells in metastatic TNBC. High abundance of CD19Ki67 B cells correlated with poor overall survival across cohorts. Functional experiments demonstrated that CD19Ki67B cells enhanced TNBC organoid proliferation, invasion, and metastatic potential compared to CD19Ki67 B cells. Cell-cell communication analysis revealed that activation of the NAMPT/ITGA5/ITGB1 signaling pathway served as a critical mechanism by which B cells regulated crosstalk with cancer cells, which was further validated by multiplex immunofluorescence and a cohort of 74 patient samples.
[CONCLUSIONS] CD19Ki67 B cells drive TNBC progression and brain metastasis by activating the NAMPT/ITGA5/ITGB1 pathway. These findings provide mechanistic insights into the immune regulation of TNBC BrM and identify potential therapeutic targets to improve clinical outcomes.
[METHODS] We performed integrated single-cell RNA sequencing (scRNA-seq) analysis of TNBC among 15 patients (8 with metastases, 7 without) and combined these data with transcriptomic profiles of BrM from public datasets. B cell heterogeneity was characterized, and the prognostic value of cycling B cells (CD19Ki67) was validated in two independent RNA-seq cohorts (TCGA, GSE65194) and a Xiangya real-world cohort. Functional assays were performed using TNBC-derived organoids co-cultured with CD19Ki67 B cells, and multiplex immunofluorescence was used to evaluate activation of signaling pathways.
[RESULTS] scRNA-seq revealed significant enrichment of cycling B cells in metastatic TNBC. High abundance of CD19Ki67 B cells correlated with poor overall survival across cohorts. Functional experiments demonstrated that CD19Ki67B cells enhanced TNBC organoid proliferation, invasion, and metastatic potential compared to CD19Ki67 B cells. Cell-cell communication analysis revealed that activation of the NAMPT/ITGA5/ITGB1 signaling pathway served as a critical mechanism by which B cells regulated crosstalk with cancer cells, which was further validated by multiplex immunofluorescence and a cohort of 74 patient samples.
[CONCLUSIONS] CD19Ki67 B cells drive TNBC progression and brain metastasis by activating the NAMPT/ITGA5/ITGB1 pathway. These findings provide mechanistic insights into the immune regulation of TNBC BrM and identify potential therapeutic targets to improve clinical outcomes.
MeSH Terms
Humans; Triple Negative Breast Neoplasms; Female; Nicotinamide Phosphoribosyltransferase; Brain Neoplasms; Cytokines; Antigens, CD19; B-Lymphocytes; Prognosis; Cell Proliferation; Gene Expression Regulation, Neoplastic; Cell Line, Tumor; Cell Communication; Single-Cell Analysis; Biomarkers, Tumor
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