Unique Chemotactic Response Profile and Specific Expression of Chemokine Receptors Ccr4 and Ccr8 by Cd4+Cd25+ Regulatory T Cells

Chemokines dictate regional trafficking of functionally distinct T cell subsets. In rodents and humans, a unique subset of CD4+CD25+ cytotoxic T lymphocyte antigen (CTLA)-4+ regulatory T cells (Treg) has been proposed to control peripheral tolerance. However, the molecular basis of immune suppression and the trafficking properties of Treg cells are still unknown. Here, we determined the chemotactic response profile and chemokine receptor expression of human blood-borne CD4+CD25+ Treg cells. These Treg cells were found to vigorously respond to several inflammatory and lymphoid chemokines. Treg cells specifically express the chemokine receptors CCR4 and CCR8 and represent a major subset of circulating CD4+ T cells responding to the chemokines macrophage-derived chemokine (MDC)/CCL22, thymus and activation-regulated chemokine (TARC)/CCL17, I-309/CCL1, and to the virokine vMIP-I (ligands of CCR4 and CCR8). Blood-borne CD4+ T cells that migrate in response to CCL1 and CCL22 exhibit a reduced alloproliferative response, dependent on the increased frequency of Treg cells in the migrated population. Importantly, mature dendritic cells preferentially attract Treg cells among circulating CD4+ T cells, by secretion of CCR4 ligands CCL17 and CCL22. Overall, these results suggest that CCR4 and/or CCR8 may guide Treg cells to sites of antigen presentation in secondary lymphoid tissues and inflamed areas to attenuate T cell activation.

[1]  E. Shevach Certified Professionals , 2001, The Journal of experimental medicine.

[2]  James J. Campbell,et al.  C-C Chemokine Receptor 4 Expression Defines a Major Subset of Circulating Nonintestinal Memory T Cells of Both Th1 and Th2 Potential , 2001, The Journal of Immunology.

[3]  C. Boshoff,et al.  Molecular Mimicry of Human Cytokine and Cytokine Response Pathway Genes by KSHV , 1996, Science.

[4]  S. Sozzani,et al.  Inhibition by IL‐12 and IFN‐α of I‐309 and macrophage‐derived chemokine production upon TCR triggering of human Th1 cells , 2000 .

[5]  F. Powrie,et al.  Regulatory T cells and inflammatory bowel disease. , 1999, Immunology today.

[6]  A. Zlotnik,et al.  Chemokines: a new classification system and their role in immunity. , 2000, Immunity.

[7]  A. Smith,et al.  Visualizing T cell competition for peptide/MHC complexes: a specific mechanism to minimize the effect of precursor frequency. , 2000, Immunity.

[8]  T. Schwartz,et al.  A Highly Selective Cc Chemokine Receptor (Ccr)8 Antagonist Encoded by the Poxvirus Molluscum Contagiosum , 2000, The Journal of experimental medicine.

[9]  J. Cyster,et al.  Chemokines as regulators of T cell differentiation , 2001, Nature Immunology.

[10]  R. Pardi,et al.  Localization of Th-cell subsets in inflammation: differential thresholds for extravasation of Th1 and Th2 cells. , 2000, Immunology today.

[11]  James J. Campbell,et al.  The chemokine receptor CCR4 in vascular recognition by cutaneous but not intestinal memory T cells , 1999, Nature.

[12]  C. Mackay,et al.  The role of chemokine receptors in primary, effector, and memory immune responses. , 2000, Annual review of immunology.

[13]  F. Sallusto,et al.  Dynamics of T lymphocyte responses: intermediates, effectors, and memory cells. , 2000, Science.

[14]  P. Allavena,et al.  The viral chemokine macrophage inflammatory protein-II is a selective Th2 chemoattractant. , 1998, Blood.

[15]  C. Bartram,et al.  Brief Definitive Report , 2003 .

[16]  Antonio Lanzavecchia,et al.  Distinct patterns and kinetics of chemokine production regulate dendritic cell function , 1999, European journal of immunology.

[17]  E. Shevach Regulatory T cells in autoimmmunity*. , 2000, Annual review of immunology.

[18]  A. Zlotnik,et al.  The biology of chemokines and their receptors. , 2000, Annual review of immunology.

[19]  Philippa Marrack,et al.  T Cells Compete for Access to Antigen-Bearing Antigen-Presenting Cells , 2000, The Journal of experimental medicine.

[20]  F. Sallusto,et al.  Two subsets of memory T lymphocytes with distinct homing potentials and effector functions , 1999, Nature.

[21]  Fiona Powrie,et al.  Cytotoxic T Lymphocyte–Associated Antigen 4 Plays an Essential Role in the Function of Cd25+Cd4+ Regulatory Cells That Control Intestinal Inflammation , 2000, The Journal of experimental medicine.

[22]  S. Sakaguchi Regulatory T cells , 2006, Springer Seminars in Immunopathology.

[23]  M. Krangel,et al.  Regulation of I‐309 gene expression in human monocytes by endogenous interleukin‐1 , 1997, European journal of immunology.

[24]  C. Boshoff,et al.  KSHV-encoded CC chemokine vMIP-III is a CCR4 agonist, stimulates angiogenesis, and selectively chemoattracts TH2 cells. , 2000, Blood.

[25]  M. Endres,et al.  The Kaposi's Sarcoma–related Herpesvirus (KSHV)-encoded Chemokine vMIP-I is a Specific Agonist for the CC Chemokine Receptor (CCR)8 , 1999, The Journal of experimental medicine.

[26]  A. Mantovani,et al.  Selective up-regulation of chemokine receptors CCR4 and CCR8 upon activation of polarized human type 2 Th cells. , 1998, Journal of immunology.

[27]  R. de Waal Malefyt,et al.  A novel polypeptide secreted by activated human T lymphocytes. , 1989, Journal of immunology.

[28]  T. Mak,et al.  Immunologic Self-Tolerance Maintained by Cd25+Cd4+Regulatory T Cells Constitutively Expressing Cytotoxic T Lymphocyte–Associated Antigen 4 , 2000, The Journal of experimental medicine.

[29]  J. Cyster,et al.  Chemokine Up-regulation and activated T cell attraction by maturing dendritic cells. , 1999, Science.

[30]  F. Sutterwala,et al.  Reversal of Proinflammatory Responses by Ligating the Macrophage Fcγ Receptor Type I , 1998, The Journal of experimental medicine.

[31]  Ethan M. Shevach,et al.  CD4+CD25+ Immunoregulatory T Cells Suppress Polyclonal T Cell Activation In Vitro by Inhibiting Interleukin 2 Production , 1998, The Journal of experimental medicine.