Abstract #1940: Prominin1/CD133 marks adult intestinal stem cells that are susceptible to neoplastic transformation

AACR Annual Meeting-- Apr 18-22, 2009; Denver, CO Cancer stem cells (CSC) are remarkably similar to normal stem cells: both self-renew, are multipotent and express common surface markers, e.g., PROMININ-1 (PROM1, CD133). What remains unclear is whether CSC are the direct progeny of mutated stem cells, or more mature cells that reacquire stem cell properties during tumor formation. Answering this important question will require knowledge of whether normal stem cells are susceptible to cancer causing mutations; however, this has proved difficult to test since the identity of most adult tissue stem cells is not known. Here, using an inducible-Cre-nuclear(n)LacZ reporter allele knocked into the Prom1 locus ( Prom1C-L ), we show that Prom1 is expressed in a variety of developing and adult tissues. Lineage-tracing studies of adult Prom1+/C-L mice containing the Rosa26-YFP reporter allele showed that Prom1+ cells are located at the base of crypts in the small intestine, co-express Lgr5, generate the entire intestinal epithelium, and are therefore likely to be the small intestinal stem cell. Prom1 was reported recently to mark CSC of human intestinal tumors that arise frequently as a consequence of aberrant Wingless (WNT) signaling. Activation of endogenous Wnt signaling in Prom1+/C-L mice containing a Cre-dependent mutant allele of Beta-catenin ( Ctnnb1lox(ex3) ) resulted first in a gross disruption of crypt architecture and a disproportionate expansion of Prom1+ cells at the crypt base. Lineage-tracing demonstrated that the progeny of these cells replaced the mucosa of the entire small intestine with neoplastic tissue that was characterized by focal high-grade intraepithelial neoplasia and crypt adenoma formation. Although all neoplastic cells arose from Prom1+ cells in these mice, only 7% of tumor cells retained Prom1 expression. Our data indicate that Prom1 marks stem cells in the adult small intestine, which are susceptible to transformation into tumors retaining a fraction of mutant-Prom1+ tumor cells. Citation Information: In: Proc Am Assoc Cancer Res; 2009 Apr 18-22; Denver, CO. Philadelphia (PA): AACR; 2009. Abstract nr 1940.