Abstract
Abstract MicroRNAs (miRNAs) have been implicated in cancer initiation and progression via their ability to affect expression of genes and proteins that regulate cell proliferation and/or cell death. Transcription of the three miRNA miR-34 family members was recently found to be directly regulated by p53. Among the target proteins regulated by miR-34 are Notch and Bcl-2, suggesting the possibility of a role for miR-34 in the maintenance and survival of cancer stem cells. We examined the roles of miR-34 in p53-mutant human pancreatic and gastric cancer cell lines and the potential link to cancer stem cells. Restoration of miR-34 expression in the cancer cells by miR-34 mimics or lentiviral miR-34 downregulated Bcl-2 and Notch1/2. miR-34 restoration significantly inhibited clonogenic cell growth and invasion, induced apoptosis and G1 and G2/M arrest in cell cycle, and sensitized the cancer cells to chemotherapy and radiation. We identified that CD44+/CD133+ cancer cells are enriched with tumorsphere-forming and tumor-initiating cells or cancer stem/progenitor cells with high levels of Notch/Bcl-2 and loss of miR-34. More significantly, miR-34 restoration led to a significant reduction of the tumor-initiating cell population, accompanied by significant inhibition of tumorsphere growth in vitro and tumor formation in vivo. Our results demonstrate that miR-34 may restore, at least in part, the tumor suppressing function of the p53 in p53-deficient human pancreatic and gastric cancer cells. Our data support that miR-34 may be involved in cancer stem cell self-renewal, potentially via the direct modulation of downstream targets Bcl-2 and Notch, implying that miR-34 may play an important role in cancer stem cell self-renewal and/or cell fate determination. Currently, we are exploring the nanoparticle-targeted delivery of miR-34 to cancer stem cells as a novel molecular therapy for human pancreatic/gastric cancer, based on our patented nanobiotechnology which has been approved by FDA for clinical trials. Taken together, our results demonstrate that restoration of miR-34 may hold significant promise as a novel molecular therapy for human pancreatic/gastric cancer with loss of p53-miR34, potentially via inhibiting cancer stem cells. The project is funded by NIH grants CA121830, CA128220 and CA134655 (to L. Xu.). Citation Information: Mol Cancer Ther 2009;8(12 Suppl):A53.
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