CD4+CD25+ Suppressor Lymphocytes in the Circulation of Patients Immunized Against Melanoma Antigens

Murine studies have suggested that a population of CD4+ T cells expressing the alpha chain of the interleukin (IL)-2 receptor (CD25+) are phenotypically anergic in response to T cell receptor stimulation and can suppress the function of CD4+ and CD8+ T cells. Recent studies of peripheral lymphocytes from healthy human volunteers have identified a similar population, although little is known about the presence and activity of these cells in patients with cancer and their possible impact on anticancer immunization strategies. Thus, the authors have undertaken these studies in patients with metastatic melanoma undergoing immunizations with known melanoma antigens. CD4+CD25+, CD4+CD25−, and a 1:1 ratio of these isolated T cells were stimulated with soluble anti-CD3 antibody in the presence of irradiated T cell-depleted PBMCs, and proliferation was assessed by measuring [3H]thymidine incorporation. In 13 patients, isolated CD4+CD25+ T cells proliferated 68% (± 5.8%) less than separately cultured CD4+CD25− T cells. Moreover, CD4+CD25+ T cells suppressed the proliferation of an equal number of cocultured CD4+CD25+ T cells in 11 of 13 patients by an average of 60% (± 4.9%). Suppression was not seen at day three of culture and became apparent at days five through nine. The degree of suppression was proportional to the numbers of CD4+CD25+ T cells. Addition of high-dose IL-2 reversed the hypoproliferative phenotype of the CD4+CD25+ T cells and abrogated their suppressive function. These studies demonstrate that anergic and functionally suppressive CD4+CD25+ T cells exist in patients with melanoma undergoing tumor antigen immunization and thus may play a role in modifying the magnitude of the T cell response to immunization.

[1]  A. Rudin,et al.  Characterization of human CD25+ CD4+ T cells in thymus,
cord and adult blood , 2002, Immunology.

[2]  C. June,et al.  Cutting Edge: Regulatory T Cells from Lung Cancer Patients Directly Inhibit Autologous T Cell Proliferation1 , 2002, The Journal of Immunology.

[3]  M. Byrne,et al.  CD4(+)CD25(+) immunoregulatory T cells: gene expression analysis reveals a functional role for the glucocorticoid-induced TNF receptor. , 2002, Immunity.

[4]  J. Shimizu,et al.  Stimulation of CD25+CD4+ regulatory T cells through GITR breaks immunological self-tolerance , 2002, Nature Immunology.

[5]  R. Lechler,et al.  Human CD4(+)CD25(+) cells: a naturally occurring population of regulatory T cells. , 2001, Blood.

[6]  E. Shevach,et al.  Control of T‐cell activation by CD4+ CD25+ suppressor T cells , 2001, Immunological reviews.

[7]  E. Shevach,et al.  Cutting Edge: Control of CD8+ T Cell Activation by CD4+CD25+ Immunoregulatory Cells , 2001, The Journal of Immunology.

[8]  G. Coukos,et al.  Regulatory CD4(+)CD25(+) T cells in tumors from patients with early-stage non-small cell lung cancer and late-stage ovarian cancer. , 2001, Cancer research.

[9]  G. Schuler,et al.  Ex Vivo Isolation and Characterization of Cd4+Cd25+ T Cells with Regulatory Properties from Human Blood , 2001, The Journal of experimental medicine.

[10]  M. Roncarolo,et al.  Human Cd25+Cd4+ T Regulatory Cells Suppress Naive and Memory T Cell Proliferation and Can Be Expanded in Vitro without Loss of Function , 2001, The Journal of experimental medicine.

[11]  A. Enk,et al.  Identification and Functional Characterization of Human Cd4+Cd25+ T Cells with Regulatory Properties Isolated from Peripheral Blood , 2001, The Journal of experimental medicine.

[12]  Steven A. Rosenberg,et al.  Progress in human tumour immunology and immunotherapy , 2001, Nature.

[13]  D. Mason,et al.  Human CD4+CD25+ thymocytes and peripheral T cells have immune suppressive activity in vitro , 2001, European journal of immunology.

[14]  M. Salmon,et al.  Human anergic/suppressive CD4+CD25+ T cells: a highly differentiated and apoptosis‐prone population , 2001, European journal of immunology.

[15]  H. Cantor,et al.  Differential cytokine requirements for regulation of autoimmune gastritis and colitis by CD4(+)CD25(+) T cells. , 2001, Journal of autoimmunity.

[16]  T. Fu,et al.  Tumor‐specific CD4+ suppressor T‐cell clone capable of inhibiting rejection of syngeneic sarcoma in A/J mice , 2000, International journal of cancer.

[17]  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.

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

[19]  J. Bluestone,et al.  B7/CD28 costimulation is essential for the homeostasis of the CD4+CD25+ immunoregulatory T cells that control autoimmune diabetes. , 2000, Immunity.

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

[21]  J. Shimizu,et al.  Induction of tumor immunity by removing CD25+CD4+ T cells: a common basis between tumor immunity and autoimmunity. , 1999, Journal of immunology.

[22]  T. Fujita,et al.  Tumor rejection by in vivo administration of anti-CD25 (interleukin-2 receptor alpha) monoclonal antibody. , 1999, Cancer research.

[23]  S. Rosenberg,et al.  A new era for cancer immunotherapy based on the genes that encode cancer antigens. , 1999, Immunity.

[24]  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.

[25]  F. Marincola,et al.  Immunologic and therapeutic evaluation of a synthetic peptide vaccine for the treatment of patients with metastatic melanoma , 1998, Nature Medicine.

[26]  E. Shevach,et al.  CD4+CD25+ T cells inhibit both the induction and effector function of autoreactive T cells and represent a unique lineage of immunoregulatory cells. , 1998, Journal of immunology.

[27]  S. Sakaguchi,et al.  Autoimmune disease as a consequence of developmental abnormality of a T cell subpopulation , 1996, The Journal of experimental medicine.

[28]  M. Toda,et al.  Immunologic self-tolerance maintained by activated T cells expressing IL-2 receptor alpha-chains (CD25). Breakdown of a single mechanism of self-tolerance causes various autoimmune diseases. , 1995, Journal of immunology.