Your search keyword '"Marie Boutet"' showing total 2 results

1. Loss of the MLL3 tumor suppressor accelerates breast tumor onset via HIF1α-induced CCL2-mediated recruitment of CCR2+ regulatory T cells

Author

Marie Boutet, Piril Erler, Kenta Nishitani, Nicole Couturier, Zheng Zhang, Emeline Barbieux, Erik Guillen, Masako Suzuki, Gregoire Lauvau, and Wenjun Guo

Abstract

Understanding how specific cancer mutations modulate the tumor microenvironment is essential for developing new precision cancer therapies. The histone methyltransferase MLL3 is a tumor suppressor that is frequently mutated together with p53 and PI3-kinase in breast cancer. Herein, using a mouse mammary-stem-cell-based tumor model and CRISPR gene editing, we recapitulated this genetic setting and revealed that Mll3 loss promotes tumorigenesis through enhancing tumor-intrinsic aggressiveness and establishing an immunosuppressive microenvironment. Specifically, HIF1α was upregulated in Mll3-mutant tumors and controlled proliferation and stem cell activity of the tumor cells. HIF1α also transcriptionally upregulated expression of the chemokine CCL2 by tumor cells. CCL2 further contributed to rapid CCR2-dependent accumulation of activated, proliferative KLRG1+Foxp3+ regulatory T (Treg) cells at very early stages of tumor initiation, promoting faster tumor onset. These results link MLL3 loss to HIF signaling, CCL2 and Treg cells, and the establishment of an early immune-suppressive microenvironment, a finding that may open new therapeutic opportunities for MLL3-mutant cancers.One Sentence SummaryMLL3 loss promotes tumorigenesis by enhancing recruitment of regulatory T cells.

Published

2022

2. Memory CD8+ T cells mediate early pathogen-specific protection through localized delivery of chemokines and IFNγ to clusters of inflammatory monocytes

Author

Grégoire Lauvau, Saidi M.Homa Soudja, Caroline Koch, Fabien Delahaye, Erik Guillen, Marie Boutet, Zachary Benet, and David R. Fooksman

Subjects

Chemokine, biology, medicine.drug_class, Chemistry, Effector, T cell, Monoclonal antibody, Cell biology, medicine.anatomical_structure, Antigen, biology.protein, medicine, Cytotoxic T cell, CD8, XCL1

Abstract

SummaryWhile cognate antigen drives clonal expansion of memory CD8+ T cells to achieve sterilizing immunity in immunized hosts, not much is known on how cognate antigen contributes to early mechanisms of protection before clonal expansion occurs. Herein, using distinct models of immunization, we establish that cognate antigen recognition by CD8+ TM cells on dendritic cells initiates their rapid and coordinated production of a burst of CCL3, CCL4 and XCL1 chemokines under the transcriptional control of IRF4. Using intravital microscopy imaging and in vivo monoclonal antibody labelling, we reveal that memory CD8+ T cells undergo antigen-mediated arrest in splenic red pulp clusters of CCR2+ monocytes where they locally deliver both IFNγ- and chemokine-potentiating microbicidal activities to achieve early protection. Thus, rapid and effective memory CD8+ T cell responses require a complex series of spatially and temporally coordinated stepwise molecular and cellular events that quickly restrict microbial pathogen growth and optimize the local delivery of effector molecules before clonal expansion occurs.

Published

2021