The aim of this thesis was to develop novel treatment strategies for different types of eye melanoma utilizing zebrafish models. We first establish orthotopic and ectopic xenograft models for uveal... Show moreThe aim of this thesis was to develop novel treatment strategies for different types of eye melanoma utilizing zebrafish models. We first establish orthotopic and ectopic xenograft models for uveal and conjunctival melanoma by engraftment of the immortalized cells derived from these tumors into zebrafish embryos. Next, we expanded these models with spheroids and zebrafish patient-derived xenografts for pre-clinical, personalized screening of anti-uveal melanoma drug responses. We demonstrated that these models can be harnessed to explore the in vivo interactions of the tumor cells with blood vessels and macrophages leading to angiogenic response. We finally apply the conjunctival melanoma model to clarify the inhibitory effects of ginsenosides and correlate their structures with potential antitumoral mechanisms. Show less
My PhD studies focused on understanding the role of macrophages, a type of immune cells which are abundantly present in several tumor types, in breast cancer progression and therapy response.In the... Show moreMy PhD studies focused on understanding the role of macrophages, a type of immune cells which are abundantly present in several tumor types, in breast cancer progression and therapy response.In the first part of my thesis, I describe how macrophages can acquire different functional characteristics in different types of breast cancer. Next, I focused on understanding the interplay between macrophages and cancer therapies. In particular, I revealed that macrophages counteract the efficacy of conventional chemotherapy drugs. I showed that eliminating macrophages with an antibody that targets CSF-1 receptor (CSF-1R) enhances the anti-cancer efficacy of platinum-based chemotherapeutic agents in breast cancer. I mechanistically discovered that CSF-1R inhibition stimulates intratumoral type I interferon signaling which is essential for the therapeutic synergy between cisplatin and CSF-1R blockade. I also uncovered that further elimination of immunosuppressive neutrophils, another type of immune cells, was required to engage an efficacious anti-tumor immunity. Show less
Macrophages possess intrinsic tumoricidal activity, yet tumor-associated macrophages (TAMs) rapidly adopt an alternative phenotype within the tumor microenvironment that is marked by tumor... Show moreMacrophages possess intrinsic tumoricidal activity, yet tumor-associated macrophages (TAMs) rapidly adopt an alternative phenotype within the tumor microenvironment that is marked by tumor-promoting immunosuppressive and trophic functions. The mechanisms that promote such TAM polarization remain poorly understood, but once identified, they may represent important therapeutic targets to block the tumor-promoting functions of TAMs and restore their anti-tumor potential. Here, we have characterized TAMs in a mouse model of metastatic ovarian cancer. We show that ovarian cancer cells promote membrane-cholesterol efflux and depletion of lipid rafts from macrophages. Increased cholesterol efflux promoted IL-4-mediated reprogramming, including inhibition of IFNγ-induced gene expression. Genetic deletion of ABC transporters, which mediate cholesterol efflux, reverts the tumor-promoting functions of TAMs and reduces tumor progression. These studies reveal an unexpected role for membrane-cholesterol efflux in driving TAM-mediated tumor progression while pointing to a potentially novel anti-tumor therapeutic strategy. Show less
