CSCs with high epithelial specific antigen (ESA), high CD44 and low CD24 expression levels were derived from the TNBC cancer cells, MDA-MB-231 and MDA-MB-468.
Here, we found that PRL treatment of TNBC cells to significantly depletes the highly tumorigenic BCSC subpopulations CD44+/CD24- and ALDH+ and differentiate them to the least tumorigenic CD44-/CD24- and ALDH- phenotype with limited tumorsphere formation and self-renewal capacities.
Importantly, shNEAT1 reduced stem cell populations such as CD44+/CD24-, ALDH+, and SOX2+, implicating that NEAT1 was closely related to cancer stemness in TNBC.
We conclude that CD24 could be a therapeutic target by itself and in combination with the Met expression could be a good prognostic biomarker for TNBC patients.
Here we used the biomarker combination of ALDH and CD24/CD44 to sort four populations isolated from triple-negative breast cancer (TNBC) patient-derived xenografts, and performed whole-transcriptome sequencing on each population.
Our data analysis and modeling results highlight the relationships among multiple crucial EMT/MET drivers including ZEB1, GRHL2, CD24, and ESRP1, particularly in basal-like breast cancers, which are most similar to triple-negative breast cancer (TNBC) and are considered the most dangerous subtype..
Overall, the present results indicated that CD44/CD24 status evaluated by double-staining immunohistochemistry constitutes an independent prognostic factor for TNBC.
Our results suggest that CD24 overexpression is an independent unfavourable prognostic factor in breast cancer, especially for luminal A and TNBC subtypes, and CD24 may be a promising therapeutic target for specific subtypes of breast cancer.
Here, we identify two T-ISC subsets within this population in triple negative breast cancer (TNBC) lines and dissociated primary breast cancer cultures: CD44(+) CD24(low+) subpopulation generates CD44(+) CD24(neg) progeny with reduced sphere formation and tumourigenicity.
We hypothesized that promoter methylation regulates specific BCSC-related genes [CD44, CD133, CD24, MSH1 (alias, Musashi-1), and ALDH1] and that this epigenetic profile can identify aggressive subtypes, such as triple-negative breast cancer (TNBC).
These findings suggest that CD44(+)/CD24(-/low) breast cancer stem-like cells play an important role in the clinical behavior of triple-negative breast cancer and that development of therapeutic targets directed to breast cancer stem-like cells may lead to reduction in the aggressiveness of triple-negative breast cancers.