Difference between revisions of "Team:Evry/Project/Chassis"

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<p class="text-justify">E. coli has therefore been proposed to inject the tumor antigen in DCs with the heterologous LLO from Listeria. Immunization of mice by direct injection of E. coli LLO/OVA provided a potent anti-tumor response, resulting in complete protection in 75% of mice (13). The drawback is LLO toxicity for the cell, with the absence of regulation by E. coli on the contrary of Listeria. In addition, even if E. coli is less pathogenic than Listeria, a live vector that replicates inside a patient raises safety issues. (13). </p>
 
<p class="text-justify">E. coli has therefore been proposed to inject the tumor antigen in DCs with the heterologous LLO from Listeria. Immunization of mice by direct injection of E. coli LLO/OVA provided a potent anti-tumor response, resulting in complete protection in 75% of mice (13). The drawback is LLO toxicity for the cell, with the absence of regulation by E. coli on the contrary of Listeria. In addition, even if E. coli is less pathogenic than Listeria, a live vector that replicates inside a patient raises safety issues. (13). </p>
  
To address both safety and efficiency, we selected S. cerevisiae for the following advantages :
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<p class="text-justify">To address both safety and efficiency, we selected S. cerevisiae for the following advantages:</p>
 
<ul>
 
<ul>
 
<li> S. cerevisiae is non pathogenic : phase I clinical trial with subcutaneous injection of heat-killed yeasts S. cerevisiae against hepatitis C showed no dose-related toxicity (14), demonstrating the safety of this vector for future human applications in cancer immunotherapy.</li>
 
<li> S. cerevisiae is non pathogenic : phase I clinical trial with subcutaneous injection of heat-killed yeasts S. cerevisiae against hepatitis C showed no dose-related toxicity (14), demonstrating the safety of this vector for future human applications in cancer immunotherapy.</li>

Revision as of 21:29, 18 September 2015

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