In recent years, research in the area of cancer stem cells has spiked tremendously. Numerous investigators have found that several types of cancers contain a subpopulation of tumor cells that display many defining characteristics of normal tissue stem cells, including multipotent differentiation potential, long-term self-renewal capacity, and expression of molecular markers of stemness. Most importantly, these cancer stem cells (CSCs) have very high tumor initiating potential, a finding that has led to the development of the cancer stem cell model for tumor progression. This model suggests that tumors are organized in a developmental hierarchy (similar to healthy tissue), with long-term tumor progression being driven by self-renewing CSCs at the top of the hierarchy. The CSC model represents a significant shift in our understanding of tumor progression, and as such, it may be possible to expand our knowledge of other aspects of tumor biology by re-examining them in the context of the CSC model. My work focuses on investigating interactions between CSCs and the tumor vasculature. Previous work has demonstrated heterogeneity in the proangiogenic potential of cells in a tumor. Considering the possibility that angiogenesis may be driven by specific subsets of tumor cells, I investigated the contribution of the CSC fraction to tumor angiogenesis. Comparing tumors with low or high CSC fractions, I have found that CSCs contribute to tumor vascular development through promotion of endothelial cell activity and recruitment of bone marrow-derived proangiogenic cells, mediated in part by vascular endothelial growth factor (VEGF) and stromal-derived factor 1 (SDF1). Since some tissue stem cells are known to reside in a vascular niche, I investigated the possibility that CSCs may also be supported by blood vessels in the tumor microenvironment, and that consequently CSCs may be targeted by disruption of tumor vasculature with antiangiogenic therapy. By testing multiple antiangiogenic therapeutic strategies, I have found that antiangiogenic therapy sensitizes CSCs to the effects of cytotoxic chemotherapy. Taken together, my work demonstrates a bi-directional relationship in which CSCs promote tumor vascular development, and tumor vasculature supports and protects CSCs. This work has implications for our understanding of CSC biology, tumor angiogenesis and antiangiogenic therapy, and provides insight into strategies for targeting the critical CSC population.
| Identifer | oai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/24307 |
| Date | 13 April 2010 |
| Creators | Folkins, Christopher A. J. |
| Contributors | Kerbel, Robert S. |
| Source Sets | University of Toronto |
| Language | en_ca |
| Detected Language | English |
| Type | Thesis |
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