Cancer stem cell characteristics in retinoblastoma

Abstract

Purpose: There is increasing evidence that cancer stem cells contribute to tumor progression and chemoresistance in a variety of malignancies, including brain tumors, leukemias, and breast carcinomas. In this study, we tested the hypothesis that retinoblastomas contain subpopulations of cells that exhibit cancer stem cell properties.

Methods: The following sources of retinoblastoma cells and tissues were examined for the presence of stem cell markers by immunocytochemistry: retinoblastoma tumors from mice transgenic for the SV40 T-antigen (driven by the beta-luteinizing hormone promoter), cell pellets of human Y79 and WERI-Rb27 retinoblastoma cell lines, and archival human retinoblastoma pathological specimens. Hoechst dye exclusion, mediated by the stem cell surface marker ABCG2 (ATP-binding cassette transporter, G2 subfamily), was assessed by flow cytometry in mouse tumors and WERI-Rb27 cells.

Results: Small numbers of retinoblastoma cells (less than 1%) exhibited immunoreactivity to stem cell markers ABCG2, aldehyde dehydrogenase 1 (ALDH1), MCM2 (minichromosome maintenance marker 2), SCA-1 (Stem cell antigen-1), and p63. Hoechst dye uptake in mouse tumors and WERI-Rb27 cells was enhanced by addition of 50 microM Verapamil, consistent with activity of the calcium-sensitive ABCG2 protein. Flow cytometric analysis confirmed the presence of small subpopulations of cells excluding Hoechst dye in mouse retinoblastoma tumors (0.3%) and WERI-Rb27 cells (0.1%) in a verapamil-sensitive manner. ABCG2 and ALDH1 positive cells were Hoechst-dim, as seen by dual labeling in vitro.

Conclusions: Mouse and human retinoblastoma tumor cells contain a small subpopulation of cells that exhibit a cancer stem cell-like phenotype. Especially significant is the expression of ABCG2 in mouse and human tumor cells, a calcium-sensitive cell surface protein that not only acts to exclude Hoechst dye, but also confers resistance to over 20 different chemotherapeutic agents. These findings point to a heterogeneity in retinoblastoma tumors that may have significant impact on future treatment strategies.