Your search keyword '"Celine Lefebvre"' showing total 2 results

1. In silico and pharmacological evaluation of GPR65 as a cancer immunotherapy target regulating T-cell functions

Author

Shamin Li, Fabien Melchiore, Chahrazade Kantari-Mimoun, Aurore Mouton, Samantha Knockaert, Wendy Philippon, Benjamin Chanrion, Christophe Bourgeois, Céline Lefebvre, Jamila Elhmouzi-Younes, Véronique Blanc, Fernando Ramon Olayo, and Bruno Laugel

Subjects

acidosis, immunosuppression, immunotherapy, GPCRs, Gpr65, T-cells, Immunologic diseases. Allergy, RC581-607

Abstract

The success of cancer immunotherapies such as immune checkpoint inhibitors, CAR T-cells and immune cell engagers have provided clinicians with tools to bypass some of the limitations of cancer immunity. However, numerous tumour factors curtail the immune response against cancer and limit the efficiency of immuno-oncology (IO) therapies. Acidification of the extra-cellular tumour environment consecutive to aberrant cancer cell metabolism is a well-known promoter of oncogenic processes that also acts as an immune regulator. Yet, the suppressive mechanisms of low extra-cellular pH on anti-cancer immunity remain poorly understood. Recent reports have suggested that GPR65, a Gαs-coupled proton-sensing GPCR broadly expressed in the immune system, may act as an immune suppressant detrimental to anti-tumour immunity. So far, the immuno-regulatory properties of GPR65 in acidic milieux have mostly been documented in macrophages and myeloid cells. Our computational evaluation of GPR65’s transcriptomic expression profile and potential as an IO target using public datasets prompted us to further investigate its functions in human T-cells. To this end, we identified and validated GPR65 small molecule inhibitors active in in vitro cellular assays and we showed that GPR65 inhibition promoted the killing capacity of antigen-specific human T-cells. Our results broaden the scope of GPR65 as an IO target by suggesting that its inhibition may enhance T-cell anti-tumour activity and provide useful pharmacological tools to further investigate the therapeutic potential of GPR65 inhibition.

Published

2024

2. Characterization of CD4+ and CD8+ T cells responses in the mixed lymphocyte reaction by flow cytometry and single cell RNA sequencing

Author

Adèle Mangelinck, Agathe Dubuisson, Etienne Becht, Sandra Dromaint-Catesson, Manon Fasquel, Nicolas Provost, Dawid Walas, Hélène Darville, Jean-Pierre Galizzi, Céline Lefebvre, Véronique Blanc, and Vincent Lombardi

Subjects

mixed lymphocyte reaction, T cells, immuno-oncology, immune checkpoint, single cell RNA sequencing, cell-cell communication, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundThe Mixed Lymphocyte Reaction (MLR) consists in the allogeneic co-culture of monocytes derived dendritic cells (MoDCs) with T cells from another donor. This in vitro assay is largely used for the assessment of immunotherapy compounds. Nevertheless, the phenotypic changes associated with lymphocyte responsiveness under MLR have never been thoroughly evaluated.MethodsHere, we used multiplex cytokine and chemokine assays, multiparametric flow cytometry and single cell RNA sequencing to deeply characterize T cells activation and function in the context of CD4+- and CD8+-specific MLR kinetics.ResultsWe showed that CD4+ and CD8+ T cells in MLR share common classical markers of response such as polyfunctionality, increased proliferation and CD25 expression but differ in their kinetics and amplitude of activation as well as their patterns of cytokines secretion and immune checkpoints expression. The analysis of immunoreactive Ki-67+CD25+ T cells identified PBK, LRR1 and MYO1G as new potential markers of MLR response. Using cell-cell communication network inference and pathway analysis on single cell RNA sequencing data, we also highlighted key components of the immunological synapse occurring between T cells and the stimulatory MoDCs together with downstream signaling pathways involved in CD4+ and CD8+ T cells activation.ConclusionThese results provide a deep understanding of the kinetics of the MLR assay for CD4+ or CD8+ T cells and may allow to better characterize compounds impacting MLR and eventually identify new strategies for immunotherapy in cancer.

Published

2024