Difference between revisions of "Team:Evry"
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<div class='side-body hidden-xs parallax' style="width: calc(100%-250px); height: 550px; background-image: url('https://static.igem.org/mediawiki/2015/5/5d/Homepage_header_background_optimized.jpg'); background-size: cover;"> | <div class='side-body hidden-xs parallax' style="width: calc(100%-250px); height: 550px; background-image: url('https://static.igem.org/mediawiki/2015/5/5d/Homepage_header_background_optimized.jpg'); background-size: cover;"> | ||
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| − | < | + | <p class="text-center" style="font-weight: 300; font-size:4em; color: #ffffff; text-shadow: 0px 0px 8px #222222;">Yeast cancer immunotherapy.</p> |
<p class="text-center" style="color: white;">EVRY-GENOPOLE IGEM 2015 PROJECT</p> | <p class="text-center" style="color: white;">EVRY-GENOPOLE IGEM 2015 PROJECT</p> | ||
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Revision as of 07:16, 31 August 2015
Welcome!
Abstract
Reshaping immunotherapy landscape.
Cancer thrives by preventing the immune system from targeting tumor cells. While current immunotherapies use dendritic cells to activate T-cells towards specific tumor antigens, they remain expensive and of variable efficiency against tumor immunosuppressive environment. To address these issues, our team mainly focused on engineering a S. cerevisiae yeast immunotherapy that was ultimately tested in vivo on mice presenting melanoma.
Three complementary strategies were combined: First, in order to modulate the tumor environment, yeast secreting immune modulators, GM-CSF and IFNgamma, were encapsulated into alginate beads and injected in tumors. Secondly, to break the immune tolerance against cancer cells, T4 and T8 lymphocytes were elicited by a yeast antigen display system. Last, to deliver cytotoxic compounds solely in the tumor environment, a yeast hypoxia bio-sensor was designed. A side project consisted in engineering E. coli to drive MAIT lymphocytes against cancer cells instead of their original targets, parasitized cells.
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