However, the high incidence of cancer in humans shows the inefficacy of
the www.selleckchem.com/products/sgc-cbp30.html immune system to control this process. Indeed, the immune system not only stimulates neoplasia by triggering inflammation, but also seems to participate to the escape or resistance of tumor cells to innate and / or adaptive immunity. Melanoma, refractory to most chemotherapies and immunotherapeutic strategies, represents a clinical and experimental model of choice to develop innovative approaches integrating both chemo and immuno-therapeutic knowledges. One mechanism used by tumor cells to escape to immune recognition is down-regulation of the antigen-presenting machinery. Many ON-01910 order tumor cells have low or absent expression of major histocompatibility complex class I (MHC-I) molecules. Exploring the role of the immune system in the modulation of tumor cells phenotype, we discovered that MHC-Ilow
tumor cells re-expressed MHC-I molecules in presence of syngeneic spleen cells (NSC). Cell-cell contact between tumor cells and NSC was necessary and resulted in IFNg production and a consequent increased MHC-I expression. The effector cells responsible for the increased IFN-g production were identified as CD4+ CD1d-independent NKT, NK1.1+ NK cells and CD4+ CD11c+DCs. We used a model of murine melanoma graft (B16F10) and showed that MHC-I induction occurs also in vivo and coincides with recruitment of lymphoid cells. gdT cells and NK cells contributed to the BIIB057 nmr induction of the expression of MHC-I molecules on B16F10 tumor cells. Our results show the plasticity of a tumor cell under the influence of immune microenvironment. Deciphering the role of early interactions between tumor and immune cells in term of tumor phenotype modification may allow innovative pharmacological strategies to interfere
with this regulation. O51 Macrophages, IL-15, Anacetrapib and Follicular Lymphoma: Towards a Better Understanding of the Interface Between Tumor B Cells and their Microenvironment Guerric Epron 1 , Thierry Fest1, Thierry Lamy1, Patricia Ame-Thomas1, Karin Tarte1 1 INSERM U917, Rennes, France Follicular lymphoma (FL), the most common indolent B-cell lymphoma, involves an initial t(14;18) translocation leading to Bcl-2 anti-apoptotic protein overexpression. Additional genetic events could lead to its transformation into an aggressive lymphoma. However, clinical behavior in FL is essentially determined by the gene expression profile of the microenvironment rather than by inherent properties of the tumor cells themselves. In agreement, an increased number of macrophages is associated with a poor prognosis in FL whereas they support the growth of DLBCL cells in vitro.