Medicine (Austin & Northern Health) - Theses
Permanent URI for this collection
Search Results
1 - 1 of 1
-
ItemOrigins of heterogeneity in melanoma( 2012)The cancer stem cell hypothesis has dominated discussions of cancer cellheterogeneity in recent years; however its relevance to melanoma is controversial. This thesis presents projects outlining sources of cellular heterogeneity in melanoma in relation to three models of cancer development: the cancer stem cell model, clonal evolution, and phenotypic plasticity. A common cancer stem cell culture method, which involves supplementing serum-free media with specific growth factors, yielded a model of melanoma that was not as representative of the original tumour as standard methods. Gene expression profiling revealed a biased towards expression of neural lineage genes, which could seriously confound therapeutic target selection. In contrast metastatic melanoma cell lines and a metastatic melanoma tissue sample were found to be heterogeneous for DNA copy number abnormalities, supporting the involvement of clonal evolution in the development of melanoma heterogeneity. Finally by segregating melanoma cells based on functional heterogeneity evidence for dynamic and reversible transitions between different phenotypes was observed. Gene expression profiling of these functionally distinct subpopulations identified genes relating to epithelial-to-mesenchymal transition and inflammation as relevant to melanoma cell invasion and drug resistance, including both cytotoxic and targeted therapies. Together these results suggest that heterogeneity between the cells of a melanoma results from ongoing genetic changes as well as cell-cell and environmental interactions, and that targeting molecules representing multiple phenotypes simultaneously might be necessary to successfully treat the disease.