Regulation of TH2 development by CXCR5+ dendritic cells and lymphotoxin-expressing B cells

[1]  J. O’Shea,et al.  Early Th1 cell differentiation is marked by a Tfh cell-like transition. , 2011, Immunity.

[2]  J. Cyster,et al.  How T cells earn the follicular rite of passage. , 2011, Immunity.

[3]  K. Ansel,et al.  Cutting Edge: Distinct Waves of BCL6 Expression during T Follicular Helper Cell Development , 2011, The Journal of Immunology.

[4]  C. Hunter,et al.  Cutting Edge: Dendritic Cell-Restricted Antigen Presentation Initiates the Follicular Helper T Cell Program but Cannot Complete Ultimate Effector Differentiation , 2011, The Journal of Immunology.

[5]  S. Crotty,et al.  ICOS receptor instructs T follicular helper cell versus effector cell differentiation via induction of the transcriptional repressor Bcl6. , 2011, Immunity.

[6]  S. Crotty,et al.  Follicular helper CD4 T cells (TFH). , 2011, Annual review of immunology.

[7]  W. Paul,et al.  How are TH2-type immune responses initiated and amplified? , 2010, Nature Reviews Immunology.

[8]  A. Ichikawa,et al.  Suppression of CXCR4 expression in mast cells upon IgE-mediated antigen stimulation , 2010, Inflammation Research.

[9]  T. Randall,et al.  Temporal changes in dendritic cell subsets, cross-priming and costimulation via CD70 control CD8+ T cell responses to influenza , 2010, Nature Immunology.

[10]  Irah L. King,et al.  IL-4–producing CD4+ T cells in reactive lymph nodes during helminth infection are T follicular helper cells , 2009, The Journal of experimental medicine.

[11]  Irah L. King,et al.  T follicular helper cells differentiate from Th2 cells in response to helminth antigens , 2009, The Journal of experimental medicine.

[12]  Kim L Kusser,et al.  Cytokine-producing effector B cells regulate type 2 immunity to H. polygyrus. , 2009, Immunity.

[13]  K. Katagiri,et al.  Organizer-Like Reticular Stromal Cell Layer Common to Adult Secondary Lymphoid Organs1 , 2008, The Journal of Immunology.

[14]  Antal Rot,et al.  CCR7 and its ligands: balancing immunity and tolerance , 2008, Nature Reviews Immunology.

[15]  M. Kehry,et al.  Suppression of Proteoglycan-Induced Arthritis by Anti-CD20 B Cell Depletion Therapy Is Mediated by Reduction in Autoantibodies and CD4+ T Cell Reactivity1 , 2008, The Journal of Immunology.

[16]  N. D. Di Paolo,et al.  Subcapsular sinus macrophages in lymph nodes clear lymph-borne viruses and present them to antiviral B cells , 2007, Nature.

[17]  C. Rozo,et al.  The Role of B Cells in the Development of CD4 Effector T Cells during a Polarized Th2 Immune Response1 , 2007, The Journal of Immunology.

[18]  T. Phan,et al.  Subcapsular encounter and complement-dependent transport of immune complexes by lymph node B cells , 2007, Nature Immunology.

[19]  D. Gray,et al.  Primary T Cell Expansion and Differentiation In Vivo Requires Antigen Presentation by B Cells1 , 2006, The Journal of Immunology.

[20]  Antonio Lanzavecchia,et al.  Regulation of Dendritic Cell Migration to the Draining Lymph Node , 2003, The Journal of experimental medicine.

[21]  J. Browning,et al.  A Role for the Lymphotoxin/LIGHT Axis in the Pathogenesis of Murine Collagen-Induced Arthritis1 , 2003, The Journal of Immunology.

[22]  L. Bradley,et al.  Costimulation via OX40L Expressed by B Cells Is Sufficient to Determine the Extent of Primary CD4 Cell Expansion and Th2 Cytokine Secretion In Vivo , 2003, The Journal of experimental medicine.

[23]  Steffen Jung,et al.  In vivo depletion of CD11c+ dendritic cells abrogates priming of CD8+ T cells by exogenous cell-associated antigens. , 2002, Immunity.

[24]  S. Gordon,et al.  B Cells Control the Migration of a Subset of Dendritic Cells into B Cell Follicles Via CXC Chemokine Ligand 13 in a Lymphotoxin-Dependent Fashion1 , 2002, The Journal of Immunology.

[25]  J. Cyster,et al.  Splenic T Zone Development Is B Cell Dependent , 2001, The Journal of experimental medicine.

[26]  R. Locksley,et al.  Analysis of type 2 immunity in vivo with a bicistronic IL-4 reporter. , 2001, Immunity.

[27]  J. Tew,et al.  Follicular dendritic cells: beyond the necessity of T-cell help. , 2001, Trends in immunology.

[28]  T. Kakiuchi,et al.  Mice Lacking Expression of the Chemokines Ccl21-Ser and Ccl19 (plt Mice) Demonstrate Delayed but Enhanced T Cell Immune Responses , 2001, The Journal of experimental medicine.

[29]  P. Loetscher,et al.  Cxc Chemokine Receptor 5 Expression Defines Follicular Homing T Cells with B Cell Helper Function , 2000, The Journal of experimental medicine.

[30]  F. Sallusto,et al.  Understanding dendritic cell and T‐lymphocyte traffic through the analysis of chemokine receptor expression , 2000, Immunological reviews.

[31]  E. Olasz,et al.  A migratory population of skin‐derived dendritic cells expresses CXCR5, responds to B lymphocyte chemoattractant in vitro, and co‐localizes to B cell zones in lymph nodes in vivo , 2000, European journal of immunology.

[32]  J. Cyster,et al.  Follicular stromal cells and lymphocyte homing to follicles , 2000, Immunological reviews.

[33]  Jason G. Cyster,et al.  A chemokine-driven positive feedback loop organizes lymphoid follicles , 2000, Nature.

[34]  J. Cyster,et al.  Leukocyte migration: Scent of the T zone , 2000, Current Biology.

[35]  L. Williams,et al.  Mice Lacking Expression of Secondary Lymphoid Organ Chemokine Have Defects in Lymphocyte Homing and Dendritic Cell Localization , 1999, The Journal of experimental medicine.

[36]  J. Cyster,et al.  Lymphotoxin alpha/beta and tumor necrosis factor are required for stromal cell expression of homing chemokines in B and T cell areas of the spleen , 2022 .

[37]  K. Rajewsky,et al.  Mature Follicular Dendritic Cell Networks Depend on Expression of Lymphotoxin β Receptor by Radioresistant Stromal Cells and of Lymphotoxin β and Tumor Necrosis Factor by B Cells , 1999, The Journal of experimental medicine.

[38]  D. Chaplin,et al.  B Lymphocytes Induce the Formation of Follicular Dendritic Cell Clusters in a Lymphotoxin α–dependent Fashion , 1998, The Journal of experimental medicine.

[39]  F. Mackay,et al.  The Sequential Role of Lymphotoxin and B Cells in the Development of Splenic Follicles , 1998, The Journal of experimental medicine.

[40]  R. Steinman,et al.  Dendritic cells in the T‐cell areas of lymphoid organs , 1997, Immunological reviews.

[41]  E. Wolf,et al.  A Putative Chemokine Receptor, BLR1, Directs B Cell Migration to Defined Lymphoid Organs and Specific Anatomic Compartments of the Spleen , 1996, Cell.

[42]  Scott F. Smith,et al.  Abnormal development of peripheral lymphoid organs in mice deficient in lymphotoxin. , 1994, Science.

[43]  T. Randall,et al.  Temporal changes in dendritic cell subsets, cross-priming and costimulation via CD70 control CD8(+) T cell responses to influenza. , 2010, Nature immunology.

[44]  A. Khoruts,et al.  In vivo activation of antigen-specific CD4 T cells. , 2001, Annual review of immunology.