Cross talk between tumor stroma and cancer cells plays a critical role in progressive enrichment of cancer stem cell phenotype in primary breast tumors

Abstract

AbstractIn order to delineate the underlying molecular mechanisms responsible for intra tumoral enrichment of BCSCs in aggressive breast tumors, firstly we evaluated the frequency and characteristics of breast cancer stem cells (BCSCs) within the tumor mass as well as in pathologically normal adjacent tissues in primary breast carcinomas of various clinical and histological grades. Then, we evaluated the expression profiles of various genes in non-cancer stem cells from these tumors to delineate the role played by cellular niche in de novo origin and/or expansion of intra-tumoral cancer stem cells.The study included primary tumor and adjacent normal breast tissue specimens from chemotherapy-naïve breast carcinoma patients. The BCSCs, identified as Lin-CD44+CD24- and aldehyde dehydrogenase 1 A1 positive were enumerated. The frequency of intra-tumoral BCSCs was correlated with various clinicopathological parameters of breast cancer. The flow-cytometrically sorted stromal cells and cancer cells from treatment naïve primary breast tumors were processed for gene expression profiling using a custom designed PCR array of genes known to facilitate cancer cell proliferation and disease progression.The frequency of BCSCs within the tumor mass as well as in the adjacent normal tissue correlated significantly with histopathological and molecular grades of tumors indicating a direct relationship of BCSC with aggressive behavior of breast cancer. A significantly higher number of BCSCs was also detected in metastatic LN group as compared to non-metastatic LN. Further, a significantly increased expression of the genes associated with growth factors, cytokines & matricellular proteins in tumors with high BCSCs content (> 5%; Hi-BCSCs tumors) as compared to Lo-BCSC tumors (with <5% intratumoral BCSC content) suggested the possible contribution of stromal cells and cancer cells in intra-tumoral expansion of CSCs. Similarly, a significant up-regulation of genes associated with hypoxia and angiogenesis in Hi-BCSCs tumors further supported the role of hypoxic environment. The expression levels of genes associated with epithelial to mesenchymal transition also followed a similar pattern. On the other hand, downregulated SNAI1 gene (generally upregulated in onset of EMT) in stromal cells of Hi-BCSCs tumors suggests a post EMT environment in Hi-BCSCs tumors.The findings suggest that the molecular crosstalk between the non-BCSC niche cells and the cancer stem cells within the breast cancer microenvironment directly contribute to formation of biologically conducive conditions for expansion of cancer stem cells.