Sanjiv A. Luther scite author profile

Lymphoid follicles are B-cell-rich compartments of lymphoid organs that function as sites of B-cell antigen encounter and differentiation. CXC chemokine receptor-5 (CXCR5) is required for B-cell migration to splenic follicles, but the requirements for homing to B-cell areas in lymph nodes remain to be defined. Here we show that lymph nodes contain two types of B-cell-rich compartment: follicles containing follicular dendritic cells, and areas lacking such cells. Using gene-targeted mice, we establish that B-lymphocyte chemoattractant (BLC/BCA1) and its receptor, CXCR5, are needed for B-cell homing to follicles in lymph nodes as well as in spleen. We also find that BLC is required for the development of most lymph nodes and Peyer's patches. In addition to mediating chemoattraction, BLC induces B cells to up-regulate membrane lymphotoxin alpha1beta2, a cytokine that promotes follicular dendritic cell development and BLC expression, establishing a positive feedback loop that is likely to be important in follicle development and homeostasis. In germinal centres the feedback loop is overridden, with B-cell lymphotoxin alpha1beta2 expression being induced by a mechanism independent of BLC.

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Intratumoral Tcf1+PD-1+CD8+ T Cells with Stem-like Properties Promote Tumor Control in Response to Vaccination and Checkpoint Blockade Immunotherapy

Siddiqui

et al. 2019

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Graphical AbstractHighlights d Mouse and human tumors harbor relatively undifferentiated Tcf1 + PD-1 + CD8 + T cells d These intratumoral cells have expansion, regeneration, and differentiation capacity d They produce differentiated Tcf1 À PD-1 + CD8 + T cells in response to immunotherapy d These stem-like cells are critical for tumor control in response to immunotherapy In BriefSince chronic activation promotes terminal T cell differentiation (exhaustion), it has remained unclear how checkpoint blockade mediates a proliferative response of tumorinfiltrating T cells. Siddiqui et al. identify intratumoral, tumor-reactive Tcf1 + PD-1 + CD8 + T cells that display stem-like properties and that promote tumor control in response to vaccination and checkpoint blockade immunotherapy. SUMMARYCheckpoint blockade mediates a proliferative response of tumor-infiltrating CD8 + T lymphocytes (TILs). The origin of this response has remained elusive because chronic activation promotes terminal differentiation or exhaustion of tumor-specific T cells. Here we identified a subset of tumor-reactive TILs bearing hallmarks of exhausted cells and central memory cells, including expression of the checkpoint protein PD-1 and the transcription factor Tcf1. Tcf1 + PD-1 + TILs mediated the proliferative response to immunotherapy, generating both Tcf1 + PD-1 + and differentiated Tcf1 À PD-1 + cells. Ablation of Tcf1 + PD-1 + TILs restricted responses to immunotherapy. Tcf1 was not required for the generation of Tcf1 + PD-1 + TILs but was essential for the stem-like functions of these cells. Human TCF1 + PD-1 + cells were detected among tumor-reactive CD8 + T cells in the blood of melanoma patients and among TILs of primary melanomas. Thus, immune checkpoint blockade relies not on reversal of T cell exhaustion programs, but on the proliferation of a stem-like TIL subset.

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Fibroblastic reticular cells in lymph nodes regulate the homeostasis of naive T cells

et al. 2007

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Interleukin 7 is essential for the survival of naive T lymphocytes. Despite its importance, its cellular source in the periphery remains poorly defined. Here we report a critical function for lymph node access in T cell homeostasis and identify T zone fibroblastic reticular cells in these organs as the main source of interleukin 7. In vitro, T zone fibroblastic reticular cells were able to prevent the death of naive T lymphocytes but not of B lymphocytes by secreting interleukin 7 and the CCR7 ligand CCL19. Using gene-targeted mice, we demonstrate a nonredundant function for CCL19 in T cell homeostasis. Our data suggest that lymph nodes and T zone fibroblastic reticular cells have a key function in naive CD4(+) and CD8(+) T cell homeostasis by providing a limited reservoir of survival factors.

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Interstitial Dendritic Cell Guidance by Haptotactic Chemokine Gradients

Weber

Hauschild

Schwarz

et al. 2013

Science

455

570

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Directional guidance of cells via gradients of chemokines is considered crucial for embryonic development, cancer dissemination, and immune responses. Nevertheless, the concept still lacks direct experimental confirmation in vivo. Here, we identify endogenous gradients of the chemokine CCL21 within mouse skin and show that they guide dendritic cells toward lymphatic vessels. Quantitative imaging reveals depots of CCL21 within lymphatic endothelial cells and steeply decaying gradients within the perilymphatic interstitium. These gradients match the migratory patterns of the dendritic cells, which directionally approach vessels from a distance of up to 90-micrometers. Interstitial CCL21 is immobilized to heparan sulfates, and its experimental delocalization or swamping the endogenous gradients abolishes directed migration. These findings functionally establish the concept of haptotaxis, directed migration along immobilized gradients, in tissues.

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Single-Cell RNA Sequencing of Lymph Node Stromal Cells Reveals Niche-Associated Heterogeneity

et al. 2018

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Stromal cells (SCs) establish the compartmentalization of lymphoid tissues critical to the immune response. However, the full diversity of lymph node (LN) SCs remains undefined. Using droplet-based single-cell RNA sequencing, we identified nine peripheral LN non-endothelial SC clusters. Included are the established subsets, Ccl19 T-zone reticular cells (TRCs), marginal reticular cells, follicular dendritic cells (FDCs), and perivascular cells. We also identified Ccl19 TRCs, likely including cholesterol-25-hydroxylase cells located at the T-zone perimeter, Cxcl9 TRCs in the T-zone and interfollicular region, CD34 SCs in the capsule and medullary vessel adventitia, indolethylamine N-methyltransferase SCs in the medullary cords, and Nr4a1 SCs in several niches. These data help define how transcriptionally distinct LN SCs support niche-restricted immune functions and provide evidence that many SCs are in an activated state.

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Coexpression of the chemokines ELC and SLC by T zone stromal cells and deletion of the ELC gene in theplt/pltmouse

Luther

Tang

Hyman

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

524

490

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The spontaneous mutant mouse strain, plt͞plt, lacks the secondary lymphoid organ chemokine (SLC)-ser gene and has disrupted trafficking of T cells and dendritic cells (DCs) to lymphoid tissues. We demonstrate here that the gene for the related chemokine, Epstein-Barr virus-induced molecule-1 ligand chemokine (ELC), is also deleted in this immunodeficient mouse strain. Using a combination of approaches, including bone marrow reconstitution and double in situ hybridization, we show in wild-type mice that ELC is expressed by T zone stromal cells that also make SLC. Smaller amounts of ELC are made by DCs, predominantly of the CD8 ؉ phenotype. We propose that ELC-and SLC-expressing T zone stromal cells play a central role in bringing naive T cells and DCs together for the initiation of immune responses.

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Chemokines as regulators of T cell differentiation

2001

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Chemokines play well established roles as attractants of naïve and effector T cells. New studies indicate that chemokines also have roles in regulating T cell differentiation. Blocking Gi protein-coupled receptor signaling by pertussis toxin as well as deficiencies in G alpha 12, chemokine receptor 2 (CCR2), CCR5, chemokine ligand 2 (CCL2, also known as monocyte chemoattractant protein 1, or MCP-1), CCL3 (macrophage inflammatory protein 1 alpha, or MIP-1 alpha) and CCL5 (RANTES) have all been found to have effects on the magnitude and cytokine polarity of the T cell response. Here we focus on findings in the CCL2-CCR2 and CCL3-CCR5 ligand-receptor systems. The roles of these molecules in regulating T cell fate include possible indirect effects on antigen-presenting cells and direct effects on differentiating T cells. Models to account for the action of chemokines and G protein-coupled receptor signals in regulating T cell differentiation are discussed.

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Differing Activities of Homeostatic Chemokines CCL19, CCL21, and CXCL12 in Lymphocyte and Dendritic Cell Recruitment and Lymphoid Neogenesis

et al. 2002

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Despite their widespread expression, the in vivo recruitment activities of CCL19 (EBV-induced molecule 1 ligand chemokine) and CXCL12 (stromal cell-derived factor 1) have not been established. Furthermore, although CXCL13 (B lymphocyte chemoattractant) has been shown to induce lymphoid neogenesis through induction of lymphotoxin (LT)α1β2, it is unclear whether other homeostatic chemokines have this property. In this work we show that ectopic expression in pancreatic islets of CCL19 leads to small infiltrates composed of lymphocytes and dendritic cells and containing high endothelial venules and stromal cells. Ectopic CXCL12 induced small infiltrates containing few T cells but enriched in dendritic cells, B cells, and plasma cells. Comparison of CCL19 transgenic mice with mice expressing CCL21 (secondary lymphoid tissue chemokine) revealed that CCL21 induced larger and more organized infiltrates. A more significant role for CCL21 is also suggested in lymphoid tissues, as CCL21 protein was found to be present in lymph nodes and spleen at much higher concentrations than CCL19. CCL19 and CCL21 but not CXCL12 induced LTα1β2 expression on naive CD4 T cells, and treatment of CCL21 transgenic mice with LTβR-Fc antagonized development of organized lymphoid structures. LTα1β2 was also induced on naive T cells by the cytokines IL-4 and IL-7. These studies establish that CCL19 and CXCL12 are sufficient to mediate cell recruitment in vivo and they indicate that LTα1β2 may function downstream of CCL21, CCL19, and IL-2 family cytokines in normal and pathological lymphoid tissue development.

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Sanjiv A. Luther

A chemokine-driven positive feedback loop organizes lymphoid follicles

Intratumoral Tcf1+PD-1+CD8+ T Cells with Stem-like Properties Promote Tumor Control in Response to Vaccination and Checkpoint Blockade Immunotherapy

Fibroblastic reticular cells in lymph nodes regulate the homeostasis of naive T cells

Interstitial Dendritic Cell Guidance by Haptotactic Chemokine Gradients

Single-Cell RNA Sequencing of Lymph Node Stromal Cells Reveals Niche-Associated Heterogeneity

Coexpression of the chemokines ELC and SLC by T zone stromal cells and deletion of the ELC gene in theplt/pltmouse

Chemokines as regulators of T cell differentiation

Differing Activities of Homeostatic Chemokines CCL19, CCL21, and CXCL12 in Lymphocyte and Dendritic Cell Recruitment and Lymphoid Neogenesis

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