[PDF][PDF] Module map of stem cell genes guides creation of epithelial cancer stem cells

DJ Wong, H Liu, TW Ridky, D Cassarino, E Segal… - Cell stem cell, 2008 - cell.com
DJ Wong, H Liu, TW Ridky, D Cassarino, E Segal, HY Chang
Cell stem cell, 2008cell.com
Self-renewal is a hallmark of stem cells and cancer, but existence of a shared stemness
program remains controversial. Here, we construct a gene module map to systematically
relate transcriptional programs in embryonic stem cells (ESCs), adult tissue stem cells, and
human cancers. This map reveals two predominant gene modules that distinguish ESCs
and adult tissue stem cells. The ESC-like transcriptional program is activated in diverse
human epithelial cancers and strongly predicts metastasis and death. c-Myc, but not other …
Summary
Self-renewal is a hallmark of stem cells and cancer, but existence of a shared stemness program remains controversial. Here, we construct a gene module map to systematically relate transcriptional programs in embryonic stem cells (ESCs), adult tissue stem cells, and human cancers. This map reveals two predominant gene modules that distinguish ESCs and adult tissue stem cells. The ESC-like transcriptional program is activated in diverse human epithelial cancers and strongly predicts metastasis and death. c-Myc, but not other oncogenes, is sufficient to reactivate the ESC-like program in normal and cancer cells. In primary human keratinocytes transformed by Ras and IκBα, c-Myc increases the fraction of tumor-initiating cells by 150-fold, enabling tumor formation and serial propagation with as few as 500 cells. c-Myc-enhanced tumor initiation is cell-autonomous and independent of genomic instability. Thus, activation of an ESC-like transcriptional program in differentiated adult cells may induce pathologic self-renewal characteristic of cancer stem cells.
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