Abstract EN:

Within the framework of the use of " the gene-suicide " system, the gene of susceptibility HSV-tk had been used to modulate alloreactivity after bone-marrow transplantation. This model showed its limits and our laboratory turned to the use of the CD20/Rituximab (RTX) system. Indeed, as a membrane protein, the molecule CD20 allows a cell sorting of the genetically modified cells ; furhtermore it is the target of a monoclonal antibody, the RTX, allowing the lysis of the cells expressing this antigen. In this context, we were interested in the existence of a population of T lymphocytes expressing the CD20 molecule. Indeed, the molecule CD20 normally expressed on B cells was described, in the litterature, as being present on a small contingent of T cells. We emitted the hypothesis that this population could be an artefact observed in flow cytometry. Secondly, an alternative splice of the CD20 gene was brought to light in the laboratory, coding a truncated mRNA called deltaCD20 (deltaCD20). This mRNA is connected to the activation and/or cellular transformation. This work thus consisted of the characterization of this mRNA deltaCD20 and in the revealing of the protein coded by this mRNA. CD20 being the target of the treatment by RTX, we also put in relation the presence of this mNRA with the RTX resistances in vitro and in vivo. The last part of the results concerns the exploration of an anti-tumoral immunotherapy approach targeting this protein deltaCD20, expressed in B cells malingnancies and potentially involved in RTX resistances. We so generated CD20 specific T cells. The long-term purpose of this strategy would be to improve the treatment of refractory patients and/or in relapse after RTX treatment.