Dendritic cells loaded with apoptotic antibody-coated tumor cells provide protective immunity against B-cell lymphoma in vivo.

The in vitro priming of tumor-specific T cells by dendritic cells (DCs) phagocytosing killed tumor cells can be augmented in the presence of antitumor monoclonal antibody (mAb). We investigated whether DCs phagocytosing killed lymphoma cells coated with tumor-specific antibody could elicit antitumor immunity in vivo. Irradiated murine 38C13 lymphoma cells were cocultured with bone marrow-derived DCs in the presence or absence of tumor-specific mAb. Mice vaccinated with DCs cocultured with mAb-coated tumor cells were protected from tumor challenge (60% long-term survival), whereas DCs loaded with tumor cells alone were much less effective. The opsonized whole tumor cell-DC vaccine elicited significantly better tumor protection than a traditional lymphoma idiotype (Id) protein vaccine, and in combination with chemotherapy could eradicate preexisting tumor. Moreover, the DC vaccine protected animals from both wild-type and Id-negative variant tumor cells, indicating that Id is not a major target of the induced tumor immunity. Protection was critically dependent upon CD8(+) T cells, with lesser contribution by CD4(+) T cells. Importantly, opsonized whole tumor cell-DC vaccination did not result in tissue-specific autoimmunity. Since opsonized whole tumor cell-DC and Id vaccines appear to target distinct tumor antigens, optimal antilymphoma immunity might be achieved by combining these approaches.

[1]  J. Mulé,et al.  Induction of anti-tumor immunity by vaccination with dendritic cells pulsed with anti-CD44 IgG opsonized tumor cells , 2006, Cancer Immunology, Immunotherapy.

[2]  N. Bercovici,et al.  Vaccination of melanoma patients using dendritic cells loaded with an allogeneic tumor cell lysate , 2006, Cancer Immunology, Immunotherapy.

[3]  A. Aguirre,et al.  Dendritic cell immunizations alone or combined with low doses of interleukin‐2 induce specific immune responses in melanoma patients , 2005, Clinical and experimental immunology.

[4]  K. Rock,et al.  Cross‐presentation: underlying mechanisms and role in immune surveillance , 2005, Immunological reviews.

[5]  J. Roliński,et al.  Allogeneic dendritic cells pulsed with tumor lysates or apoptotic bodies as immunotherapy for patients with early-stage B-cell chronic lymphocytic leukemia , 2005, Leukemia.

[6]  J. Timmerman,et al.  Current status of therapeutic vaccines for non-Hodgkin's lymphoma , 2005, Current opinion in oncology.

[7]  M. Dhodapkar,et al.  Recruiting dendritic cells to improve antibody therapy of cancer. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[8]  S. Riddell,et al.  Efficient cross-priming of tumor antigen-specific T cells by dendritic cells sensitized with diverse anti-MICA opsonized tumor cells. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[9]  R. Levy,et al.  Clinical outcome of lymphoma patients after idiotype vaccination is correlated with humoral immune response and immunoglobulin G Fc receptor genotype. , 2004, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[10]  P. Neeson,et al.  A New Multi-Parameter Flow Cytometric Assay for Monitoring Lymphoma Growth and Spread in a Pre-Clinical Murine Model for Human Lymphoma. , 2004 .

[11]  R. Steinman,et al.  Dendritic Cells Charged with Apoptotic Tumor Cells Induce Long-Lived Protective CD4+ and CD8+ T Cell Immunity against B16 Melanoma 1 , 2003, The Journal of Immunology.

[12]  J. Timmerman Immunotherapy for Lymphomas , 2003, International journal of hematology.

[13]  S. Aiba,et al.  Targeting Apoptotic Tumor Cells to FcγR Provides Efficient and Versatile Vaccination Against Tumors by Dendritic Cells 1 , 2003, The Journal of Immunology.

[14]  J. Ravetch,et al.  Inducing Tumor Immunity through the Selective Engagement of Activating Fcγ Receptors on Dendritic Cells , 2002, The Journal of experimental medicine.

[15]  Scott N. Mueller,et al.  Rapid Cytotoxic T Lymphocyte Activation Occurs in the Draining Lymph Nodes After Cutaneous Herpes Simplex Virus Infection as a Result of Early Antigen Presentation and Not the Presence of Virus , 2002, The Journal of experimental medicine.

[16]  D. Czerwinski,et al.  Idiotype-pulsed dendritic cell vaccination for B-cell lymphoma: clinical and immune responses in 35 patients. , 2002, Blood.

[17]  S. Amigorena,et al.  Fcγ Receptors and Cross-Presentation in Dendritic Cells , 2002, The Journal of experimental medicine.

[18]  M. Dhodapkar,et al.  Antitumor Monoclonal Antibodies Enhance Cross-Presentation of Cellular Antigens and the Generation of Myeloma-specific Killer T Cells by Dendritic Cells , 2002, The Journal of experimental medicine.

[19]  U. Jäger,et al.  CD20 antibody (C2B8)-induced apoptosis of lymphoma cells promotes phagocytosis by dendritic cells and cross-priming of CD8+ cytotoxic T cells , 2001, Leukemia.

[20]  D. Klatzmann,et al.  Protection of mice against leukemia after vaccination with bone marrow-derived dendritic cells loaded with apoptotic leukemia cells. , 2001, Cancer research.

[21]  R. Levy,et al.  Idiotype-encoding recombinant adenoviruses provide protective immunity against murine B-cell lymphomas. , 2001, Blood.

[22]  A. Palucka,et al.  Cross-Priming of Naive Cd8 T Cells against Melanoma Antigens Using Dendritic Cells Loaded with Killed Allogeneic Melanoma Cells , 2000, The Journal of experimental medicine.

[23]  J. Saurat,et al.  Dendritic cells containing apoptotic melanoma cells prime human CD8+ T cells for efficient tumor cell lysis. , 2000, Cancer research.

[24]  R. Levy,et al.  Linkage of Foreign Carrier Protein to a Self-Tumor Antigen Enhances the Immunogenicity of a Pulsed Dendritic Cell Vaccine1 , 2000, The Journal of Immunology.

[25]  R. Zinkernagel,et al.  Immunotherapy with Dendritic Cells Directed against Tumor Antigens Shared with Normal Host Cells Results in Severe Autoimmune Disease , 2000, The Journal of experimental medicine.

[26]  L. Leserman,et al.  Class I‐restricted presentation of exogenous antigen acquired by Fcγ receptor‐mediated endocytosis is regulated in dendritic cells , 2000, European journal of immunology.

[27]  E. Gilboa,et al.  Induction of tumor immunity and cytotoxic T lymphocyte responses using dendritic cells transfected with messenger RNA amplified from tumor cells. , 2000, Cancer research.

[28]  S. Amigorena,et al.  Fc receptors for IgG and antigen presentation on MHC class I and class II molecules. , 1999, Seminars in immunology.

[29]  Craig W. Reynolds,et al.  Complete molecular remissions induced by patient-specific vaccination plus granulocyte–monocyte colony-stimulating factor against lymphoma , 1999, Nature Medicine.

[30]  C. Rugarli,et al.  Immunogenicity of apoptotic cells in vivo: role of antigen load, antigen-presenting cells, and cytokines. , 1999, Journal of immunology.

[31]  C. Rooney,et al.  Autoimmune disease induced by dendritic cell immunization against leukemia. , 1999, Leukemia research.

[32]  R. Levy,et al.  DNA vaccination against the idiotype of a murine B cell lymphoma: mechanism of tumor protection. , 1999, Journal of immunology.

[33]  P. Ricciardi-Castagnoli,et al.  Fcγ Receptor–mediated Induction of Dendritic Cell Maturation and Major Histocompatibility Complex Class I–restricted Antigen Presentation after Immune Complex Internalization , 1999, The Journal of experimental medicine.

[34]  J. Mulé,et al.  Murine dendritic cells pulsed with whole tumor lysates mediate potent antitumor immune responses in vitro and in vivo. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[35]  R. Levy,et al.  Rituximab chimeric anti-CD20 monoclonal antibody therapy for relapsed indolent lymphoma: half of patients respond to a four-dose treatment program. , 1998, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[36]  D. Czerwinski,et al.  Tumor-specific idiotype vaccines in the treatment of patients with B-cell lymphoma--long-term results of a clinical trial. , 1997, Blood.

[37]  D. Kufe,et al.  Induction of antitumor activity by immunization with fusions of dendritic and carcinoma cells , 1997, Nature Medicine.

[38]  H. Young,et al.  Vaccination with syngeneic, lymphoma-derived immunoglobulin idiotype combined with granulocyte/macrophage colony-stimulating factor primes mice for a protective T-cell response. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[39]  F. Sallusto,et al.  Efficient presentation of soluble antigen by cultured human dendritic cells is maintained by granulocyte/macrophage colony-stimulating factor plus interleukin 4 and downregulated by tumor necrosis factor alpha , 1994, The Journal of experimental medicine.

[40]  R. Levy,et al.  Induction of immune responses in patients with B-cell lymphoma against the surface-immunoglobulin idiotype expressed by their tumors. , 1992, The New England journal of medicine.

[41]  R. Levy,et al.  Idiotype vaccination against murine B cell lymphoma. Humoral and cellular requirements for the full expression of antitumor immunity. , 1990, Journal of immunology.

[42]  H. Koeppen,et al.  Tumor antigens defined by cloned immunological probes are highly polymorphic and are not detected on autologous normal cells , 1989, The Journal of experimental medicine.

[43]  R. Levy,et al.  Immunotherapy of established murine B cell lymphoma. Combination of idiotype immunization and cyclophosphamide. , 1988, Journal of immunology.

[44]  S. Levy,et al.  Alternative V kappa gene rearrangements in a murine B cell lymphoma. An explantation for idiotypic heterogeneity , 1988, The Journal of experimental medicine.

[45]  G. Apell,et al.  Heterogeneity of a murine B cell lymphoma. Isolation and characterization of idiotypic variants. , 1988, Journal of immunology.

[46]  R. Levy,et al.  Idiotype vaccination against murine B cell lymphoma. Humoral and cellular responses elicited by tumor-derived immunoglobulin M and its molecular subunits. , 1987, Journal of immunology.

[47]  R. Warnke,et al.  Idiotype variant cell populations in patients with B cell lymphoma , 1986, The Journal of experimental medicine.

[48]  R. Levy,et al.  Importance of antibody isotype in monoclonal anti-idiotype therapy of a murine B cell lymphoma. A study of hybridoma class switch variants. , 1986, Journal of immunology.

[49]  R. Warnke,et al.  Treatment of B-cell lymphoma with monoclonal anti-idiotype antibody. , 1982, The New England journal of medicine.

[50]  Y. Bergman,et al.  Characterization of a carcinogen‐induced murine B lymphocyte cell line of C3H/eB origin , 1977, European journal of immunology.

[51]  玉城 成雄 Autoimmune hepatic inflammation by vaccination of mice with dendritic cells loaded with well-differentiated hepatocellular carcinoma cells and administration of interleukin-12 , 2006 .

[52]  C Caux,et al.  Immunobiology of dendritic cells. , 2000, Annual review of immunology.

[53]  Edgar G. Engleman,et al.  Vaccination of patients with B–cell lymphoma using autologous antigen–pulsed dendritic cells , 1996, Nature Medicine.

[54]  M. Kaminski,et al.  Monoclonal anti-idiotype antibodies against the murine B cell lymphoma 38C13: characterization and use as probes for the biology of the tumor in vivo and in vitro. , 1985, Hybridoma.