CXCL13-producing TFH cells link immune suppression and adaptive memory in human breast cancer
Chunyan Gu-Trantien, Edoardo Migliori, Laurence Buisseret, Alexandre de Wind, Sylvain Brohée, Soizic Garaud, Grégory Noël, Vu Luan Dang Chi, Jean-Nicolas Lodewyckx, Céline Naveaux, Hugues Duvillier, Stanislas Goriely, Denis Larsimont, Karen Willard-Gallo
Chunyan Gu-Trantien, Edoardo Migliori, Laurence Buisseret, Alexandre de Wind, Sylvain Brohée, Soizic Garaud, Grégory Noël, Vu Luan Dang Chi, Jean-Nicolas Lodewyckx, Céline Naveaux, Hugues Duvillier, Stanislas Goriely, Denis Larsimont, Karen Willard-Gallo
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Research Article Immunology Oncology

CXCL13-producing TFH cells link immune suppression and adaptive memory in human breast cancer

Abstract

T follicular helper cells (TFH cells) are important regulators of antigen-specific B cell responses. The B cell chemoattractant CXCL13 has recently been linked with TFH cell infiltration and improved survival in human cancer. Although human TFH cells can produce CXCL13, their immune functions are currently unknown. This study presents data from human breast cancer, advocating a role for tumor-infiltrating CXCL13-producing (CXCR5–) TFH cells, here named TFHX13 cells, in promoting local memory B cell differentiation. TFHX13 cells potentially trigger tertiary lymphoid structure formation and thereby generate germinal center B cell responses at the tumor site. Follicular DCs are not potent CXCL13 producers in breast tumor tissues. We used the TFH cell markers PD-1 and ICOS to identify distinct effector and regulatory CD4+ T cell subpopulations in breast tumors. TFHX13 cells are an important component of the PD-1hiICOSint effector subpopulation and coexpanded with PD-1intICOShiFOXP3hi Tregs. IL2 deprivation induces CXCL13 expression in vitro with a synergistic effect from TGFβ1, providing insight into TFHX13 cell differentiation in response to Treg accumulation, similar to conventional TFH cell responses. Our data suggest that human TFHX13 cell differentiation may be a key factor in converting Treg-mediated immune suppression to de novo activation of adaptive antitumor humoral responses in the chronic inflammatory breast cancer microenvironment.

Authors

Chunyan Gu-Trantien, Edoardo Migliori, Laurence Buisseret, Alexandre de Wind, Sylvain Brohée, Soizic Garaud, Grégory Noël, Vu Luan Dang Chi, Jean-Nicolas Lodewyckx, Céline Naveaux, Hugues Duvillier, Stanislas Goriely, Denis Larsimont, Karen Willard-Gallo

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Figure 2

PD-1 and ICOS expression defines 3 CD4+ tumor-infiltrating lymphocyte (TIL) subpopulations in human breast cancer (BC).

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PD-1 and ICOS expression defines 3 CD4+ tumor-infiltrating lymphocyte (T...
(A) Flow cytometric analysis showing PD-1loICOSlo (orange), PD-1hiICOSint (blue; contains TFHX13), and PD-1intICOShi (magenta; principally Tregs) CD4+ TIL subpopulations in fresh BC tissue homogenates. (B) CXCL13, FoxP3, and Ki67 expression in the 3 subpopulations shown in A. (C–E, J) Percentage (flow cytometric analysis) of CXCL13+ (C), FoxP3+ (D), Ki67+ (E), and T-bet+ (J) CD4+ T cells in: healthy donor peripheral blood (D-PB; n = 5), BC patient PB (P-PB; n = 9), mammary reduction tissues (MR; n = 5), benign breast tumors (BT; n = 5), nonadjacent nontumor breast tissue from BC (NT; n = 8–10), and BC tissue (n = 28–38). (F) % FoxP3+ in Ki67+CD4+ T cells from the samples in C. (C–F, J) One-way ANOVA followed by Tukey’s test. The PD-1/ICOS–defined CD4+ TIL subpopulations, and all other samples were independently compared. (G) Flow cytometric analysis of CXCL13 and T-bet expression in CD4+ and CD8+ TIL. T-bet positivity was defined by the distinct populations detected in the CD4CD8 TIL gate. (H) Immunofluorescence (IF) staining of CXCL13+ TIL (red), T-bet+ TIL (green), and DAPI (gray). Yellow scale bar: 10 μm. (I) Flow cytometric analysis of T-bet and FoxP3 expression in CD4+ TIL. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.