6533b85dfe1ef96bd12beffc

RESEARCH PRODUCT

Aspects fonctionnels et pronostiques des cellules myéloïdes suppressives et de Foxp3 dans le cancer

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Evasion of immune surveillance by certain tumour cells seems to be a basic requirement for tumour development in preclinical models and in humans. The mechanisms by which the tumour mediates its immune evasion are manifold, and involve the majority of immune system cells. Among these, immunoregulatory cells such as myeloid-derived suppressor cells (MDSCs) or regulatory T lymphocytes (T-regs, which express the transcription factor Foxp3) appear to play a predominant role. The results presented in this work aim to improve our understanding of the functional and prognostic roles of myeloid suppressor cells and T-regs in cancer, focussing particularly on how these cells are modulated by chemotherapy. Regarding MDSCs, our work has made it possible to better understand on the one hand the molecular mechanisms underlying their accumulation, and on the other hand, their acquisition of immunosuppressive properties, through a signaling pathway involving exosomes of tumoral origin. This discovery, combined with the ability of amiloride, a molecule in frequent therapeutic use, to reduce the production of exosomes, even by tumour cells, offers new avenues for pharmacological targeting of MDSCs. Indeed, a study of the cytotoxic effects on MDSCs of several chemotherapy compounds made it possible to show that 5-fluorouracil has a selective capacity to eliminate MDSCs, probably due to the low level of expression of its target, thymidylate synthase, in MDSCs. Our immunohistochemical studies on tumour specimens resected from patients with localised breast cancer treated by neoadjuvant chemotherapy have shown that neoadjuvant chemotherapy is associated with qualitative changes in tumour infiltration by both CD8+ T-lymphocytes and Foxp3+ T-regs. The existence of a favourable immune response ratio after neoadjuvant chemotherapy, as defined by high infiltration by CD8+ and a low level of Foxp3+ infiltration, is associated with a significant increase in markers of cell-mediated cytotoxicity, and is also significantly correlated with complete eradication of tumour cells. This favourable immunological profile is reflected in the long-term by improved disease-free survival and better overall survival, regardless of the type of chemotherapy, the achievement or not of complete pathological response, and the molecular sub-type of breast cancer. Combining this immunological information with the data about the extent of tumour residue after treatment makes it possible to considerably refine prognosis in these patients. Finally, our preliminary work suggests that expression of Foxp3 in cancerous cells in HER2+++ breast tumours is a favourable prognostic factor. Overall, these results illustrate the importance not only of the tumour characteristics, but also of the host characteristics, in particular, the type of immune response that it is capable of eliciting, and the effect of chemotherapy on this immune response.