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NTIS 바로가기Immune network : official journal of the Korean association of immunobiologists, v.5 no.2, 2005년, pp.55 - 67
손은화 (삼척국립대학교 생약자원개발학과) , 인상환 (성균관대학교 약학부) , 표석능 (성균관대학교 약학부)
Cancer vaccine is an active immunotherapy to stimulate the immune system to mount a response against the tumor specific antigen. Working as a stimulant to the body's own immune system, cancer vaccines help the body recognize and destroy targeted cancers and may help to shrink advanced tumors. Resear...
Martin SE, Martin WJ: Anti-tumour antibodies in normal mouse sera. Int J Cancer 15;658-664, 1975
Melero I, Bach N, Chen L: Costimulation, and ignorance of cyytic T lymphocytes in immune responses to tumor antigens. Life Sci 60;2035-2041, 1997
Mocellin S, Rossi CR, Nitti D: Cancer vaccine development: on the way to break immune to malignant cells. Exp Cell Res 299;267-278, 2004nistra
Jager E, Jager D, Knuth A: CTL-defined cancer vaccines: perspectives for active immunotherapeutic interventions in minimal residual disease. Cancer Metastasis Rev 18;143-150,1999
Parmiani G, Castelli C, Dalerba P, Mortarini R, Rivoltini L, Marincola FM, Anichini A: Cancer immunotherapy with peptide-based vaccines: what have we achieved? Where are we going? J Natl Cancer Inst 94;805-818, 2002
Finn OJ: Cancer vaccines: between the idea and the reality. Nat Rev Immunol 3;630-641, 2003
Sette A, Fikes J: Epitope-based vaccines: an update on epitope identification, vaccine design and delivery. Curr Opin Immunol 15;461-470, 2003
Parajuli P, Sloan AE: Dendritic cell-based immunotherapy of malignant gliomas. Cancer Invest 22;405-416, 2004
Robinson HL: DNA vaccines: basic mechanism and immune responses (Review). Int J Mol Med 4;549-555, 1999
Kutzler MA, Weiner DB: Developing DNA vaccines that call to dendritic cells. J Clin Invest 114;1241-1244, 2004
Coulie PG, van der Bruggen P: T-cell responses of vaccinated cancer patients. Curr Opin Immunol 15;131-137, 2003
Pardoll DM: Cancer vaccines. Nat Med 4(5 Suppl);S525-S531, 1998
Staveley-O'Carroll K, Sotomayor E, Montgomery J, Borrello I, Hwang L, Fein S, Pardoll D, Levitsky H: Induction of antigen-specific T cell anergy: an early event in the course of tumor progression. Proc Natl Acad Sci USA 95;1178-1183, 1998
Schlecht G, Loucka J, Najar H, Sebo P, Leclerc C: Antigen targeting to CD11b allows efficient presentation of CD4+ and CD8+ T cell epitopes and in vivo Th1-polarized T cell priming. J Immunol 173;6089-6097, 2004
Tuting T, Steitz J, Bruck J, Gambotto A, Steinbrink K, DeLeo AB, Robbins P, Knop J, Enk AH: Dendritic cell-based genetic immunization in mice with a recombinant adenovirus encoding murine TRP2 induces effective antimelanoma immunity. J Gene Med 1;400-406, 1999
Blum JS, Ma C, Kovats S: Antigen-presenting cells and the selection of immunodominant epitopes. Crit Rev Immunol 17;411-417, 1997
Bricks LF: Pneumococcal vaccine: overview about the protective efficacy in different high risk groups and new progress in the development of a conjugate pneumococcal vaccine. J Pediatr (Rio J) 70;75-81, 1994
Antonia S, Mule JJ, Weber JS: Current developments of immunotherapy in the clinic. Curr Opin Immunol 16;130- 136, 2004
Yannelli JR, Wroblewski JM: On the road to a tumor cell vaccine: 20 years of cellular immunotherapy. Vaccine 23; 97-113, 2004
Schweighoffer T, Schmidt W, Buschle M, Birnstiel ML: Depletion of naive T cells of the peripheral lymph nodes abrogates systemic antitumor protection conferred by IL-2 secreting cancer vaccines. Gene Ther 3;819-824, 1996
Dermime S, Gilham DE, Shaw DM, Davidson EJ, Meziane el-K, Armstrong A, Hawkins RE, Stern PL: Vaccine and antibody-directed T cell tumour immunotherapy. Biochim Biophys Acta 1704;11-35, 2004
Maeurer MJ, Storkus WJ, Kirkwood JM, Lotze MT: New treatment options for patients with melanoma: review of melanoma-derived T-cell epitope-based peptide vaccines. Melanoma Res 6;11-24, 1996
Bruggen P: A CASP-8 mutation recognized by cyytic T lymphocytes on a human head and neck carcinoma. J Exp Med 186;785-793, 1997
Orme IM, Collins FM: Crossprotecculous mycobacterial infections by Mycobacterium tuberculosis memory immune T lymphocytes. J Exp Med 163; 203-208, 1986
McCabe WR, Bruins SC, Craven DE, Johns M: Cross-reactive antigens: their potential for immunization-induced immunity to Gram-negative bacteria. J Infect Dis 136(Suppl);S161- S166, 1977
Berard F, Blanco P, Davoust J, Neidhart-Berard EM, Nouri- Shirazi M, Taquet N, Rimoldi D, Cerottini JC, Banchereau J, Palucka AK: Cross-priming of naive CD8 T cells against melanoma antigens using dendritic cells loaded with killed allogeneic melanoma cells. J Exp Med 192;1535-1544, 2000
Luiten RM, Demotte N, Tine J, van der Bruggen P: A MAGE-A1 peptide presented to cyytic T lymphocytes by both HLA-B35 and HLA-A1 molecules. Tissue Antigens 56;77-81, 2000
Schultz ES, Lethe B, Cambiaso CL, Van Snick J, Chaux P, Corthals J, Heirman C, Thielemans K, Boon T, van der Bruggen P: A MAGE-A3 peptide presented by HLA-DP4 is recognized on tumor cells by CD4+ cyytic T lymphocytes. Cancer Res 60;6272-6275, 2000
Van Pel A, van der Bruggen P, Coulie PG, Brichard VG, Lethe B, van den Eynde B, Uyttenhove C, Renauld JC, Boon T: Genes coding for tumor antigens recognized by cyytic T lymphocytes. Immunol Rev 145;229-250, 1995
Parkhurst MR, Riley JP, Robbins PF, Rosenberg SA: Induction of CD4+ Th1 lymphocytes that recognize known and novel class II MHC restricted epitopes from the melanoma antigen gp100 by stimulation with recombinant protein. J Immunother 27;79-91, 2004
Lewis JJ, Houghton AN: A role for a melanosome transport signal in accessing the MHC class II presentation pathway and in eliciting CD4+ T cell responses. J Immunol 163; 5820-5826, 1999
Hoashi T, Watabe H, Muller J, Yamaguchi Y, Vieira WD, Hearing VJ: MART-1 is required for the function of the melanosomal matrix protein PMEL17/GP100 and the maturation of melanosomes. J Biol Chem 280;14006-14016, 2005
Choi C, Kusewitt DF: Comparison of tyrosinase-related protein- 2, S-100, and Melan A immunoreactivity in canine amelanotic melanomas. Vet Pathol 40;713-718, 2003
Offringa R, Vierboom MP, van der Burg SH, Erdile L, Melief CJ: p53: a potential target antigen for immunotherapy of cancer. Ann N Y Acad Sci 910;223-233, 2000
van der Burg SH, Menon AG, Redeker A, Bonnet MC, Drijfhout JW, lenaar RA, van de Velde CJ, Moingeon P, Kuppen PJ, Offringa R, Melief CJ: Induction of p53-specific immune responses in colorectal cancer patients receiving a recombinant ALVAC-p53 candidate vaccine. Clin Cancer Res 8;1019-1027, 2002
Liedke M, Karnbach C, Kalinin V, Herbst B, Frilling A, Broelsch CE: Detection of H-ras and K-ras in tumors of gastrointestinal-pancreatic system. Langenbecks Arch Chir Suppl Kongressbd 115(Suppl I);S255-S259, 1998
Brembeck FH, Schreiber FS, Deramaudt TB, Craig L, Rhoades B, Swain G, Grippo P, Stoffers DA, Silberg DG, Rustgi AK: The mutant K-ras oncogene causes pancreatic periductal lymphocytic infiltration and gastric mucous neck cell hyperplasia in transgenic mice. Cancer Res 63;2005-2009, 2003
Dela Cruz JS, Lau SY, Ramirez EM, De Giovanni C, Forni G, Morrison SL, Penichet ML. Protein vaccination with the HER2/neu extracellular domain plus anti-HER2/neu antibody- cytokine fusion proteins induces a protective anti- HER2/neu immune response in mice. Vaccine 21;1317-1326, 2003
Blumberg BS, Larouze B, London WT, Werner B, Hesser JE, Millman I, Saimot G, Payet M: The relation of infection with the hepatitis B agent to primary hepatic carcinoma. Am J Pathol 81;669-682, 1975
Davidson EJ, Faulkner RL, Sehr P, Pawlita M, Smyth LJ, Burt DJ, Tomlinson AE, Hickling J, Kitchener HC, Stern PL: Effect of TA-CIN (HPV 16 L2E6E7) booster immunisation in vulval intraepithelial neoplasia patients previously vaccinated with TA-HPV (vaccinia virus encoding HPV 16/18 E6E7). Vaccine 22;2722-2729, 2004
Humphrey LJ, Boehm B, Jewell WR, Boehm OR: Immunologic response of cancer patients modified by immunization with tumor vaccine. Ann Surg 176;554-558, 1972
Antonia S, Mule JJ, Weber JS: Current developments of immunotherapy in the clinic. Curr Opin Immunol 16;130- 136, 2004
Schuler G, Schuler-Thurner B, Steinman RM: The use of dendritic cells in cancer immunotherapy. Curr Opin Immunol 15;138-147, 2003
Kaminski ER, Goddard RV, Prentice AG: Dendritic cells and their potential therapeutic role in haemaogical malignancy. Leuk Lymphoma 44;1657-1666, 2003
Ohno T: Auogous cancer vaccine: a novel formulation. Microbiol Immunol 47;255-263, 2003
Berd D: Auogous, hapten-modified vaccine as a treatment for human cancers. Vaccine 19;2565-2670, 2001
Sondak VK, Sosman JA: Results of clinical trials with an allogenic melanoma tumor cell lysate vaccine: Melacine. Semin Cancer Biol 13;409-415, 2003
Lunde E, Western KH, Rasmussen IB, Sandlie I, Bogen B: Efficient delivery of T cell epitopes to APC by use of MHC class II-specific Troybodies. J Immunol 168;2154-2162, 2002
Nakamura M, Iwahashi M, Nakamori M, Ueda K, Matsuura I, Noguchi K, Yamaue H: Dendritic cells genetically engineered to simultaneously express endogenous tumor antigen and granulocyte macrophage colony-stimulating factor elicit potent therapeutic antitumor immunity. Clin Cancer Res 8;2742-2749, 2002
Homma S, Kikuchi T, Ishiji N, Ochiai K, Takeyama H, Saotome H, Sagawa Y, Hara E, Kufe D, Ryan JL, Ohno T, Toda G: Cancer immunotherapy by fusions of dendritic and tumour cells and rh-IL-12. Eur J Clin Invest 35;279-286, 2005
Timmerman JM, Czerwinski DK, Davis TA, Hsu FJ, Benike C, Hao ZM, Taidi B, Rajapaksa R, Caspar CB, Okada CY, van Beckhoven A, Liles TM, Engleman EG, Levy R: Idiotype-pulsed dendritic cell vaccination for B-cell lymphoma: clinical and immune responses in 35 patients. Blood 99;1517-1526, 2002?
Rini B: Recent clinical development of dendritic cell-based immunotherapy for prostate cancer. Expert Opin Biol Ther 4;1729-1734, 2004
Chang GC, Lan HC, Juang SH, Wu YC, Lee HC, Hung YM, Yang HY, Whang-Peng J, Liu KJ: A pilot clinical trial of vaccination with dendritic cells pulsed with auogous tumor cells derived from malignant pleural effusion in patients with late-stage lung carcinoma. Cancer 103;763-771, 2005
Sette A, Fikes J: Epitope-based vaccines: an update on epitope identification, vaccine design and delivery. Curr Opin Immunol 15;461-470, 2003
Gordan JD, Vonderheide RH: Universal tumor antigens asx targets for immunotherapy. Cytotherapy 4;317-327, 2002
Hakomori S: Tumor-associated carbohydrate antigens defining tumor malignancy: basis for development of anticancer vaccines. Adv Exp Med Biol 491;369-402, 2001
Van Pel A, van der Bruggen P, Coulie PG, Brichard VG, Lethe B, van den Eynde B, Uyttenhove C, Renauld JC, Boon T: Genes coding for tumor antigens recognized by cyytic T lymphocytes. Immunol Rev 145;229-250, 1995
Vierboom MP, Feltkamp MC, Neisig A, Drijfhout JW, ter Schegget J, Neefjes JJ, Melief CJ, Kast WM: Peptide vaccination with an anchor-replaced CTL epitope protects against human papillomavirus type 16-induced tumors expressing the wild-type epitope. J Immunother 21;399-408, 1998
Diehl L, den Boer AT, Schoenberger SP, van der Voort EI, Schumacher TN, Melief CJ, Offringa R, Toes RE: CD40 activation in vivo overcomes peptide-induced peripheral cytotoxic T-lymphocyte and augments anti-tumor vaccine efficacy. Nat Med 5;774-779, 1999
Valmori D, Lienard D, Waanders G, Rimoldi D, Cerottini JC, Romero P: Analysis of MAGE-3-specific cyytic T lymphocytes in human leukocyte antigen-A2 melanoma patients. Cancer Res 57;735-741, 1997
Hodge JW, Poole DJ, Aarts WM, Gomez Yafal A, Gritz L, Schlom J: Modified vaccinia virus ankara recombinants are as potent as vaccinia recombinants in diversified prime and boost vaccine regimens to elicit therapeutic antitumor responses. Cancer Res 63;7942-7949, 2003
Tatsis N, Ertl HC: Adenoviruses as vaccine vectors. Mol Ther 10;616-629, 2004
Essajee S, Kaufman HL: Poxvirus vaccines for cancer and HIV therapy. Expert Opin Biol Ther 4;575-588, 2004
Restifo NP: The new vaccines: building viruses that elicit antitumor immunity. Curr Opin Immunol 8;658-663, 1996
Starks H, Bruhn KW, Shen H, Barry RA, Dubensky TW, Brockstedt D, Hinrichs DJ, Higgins DE, Miller JF, Giedlin M, Bouwer HG: Listeria monocytogenes as a vaccine vector: virulence attenuation or existing antivector immunity does not diminish therapeutic efficacy. J Immunol 173;420-427, 2004
Mandal M, Lee KD: Listeriolysin O-liposome-mediated cytosolic delivery of macromolecule antigen in vivo: enhancement of antigen-specific cytotoxic T lymphocyte frequency, activity, and tumor protection. Biochim Biophys Acta 1563; 7-17, 2002
Cheng WF, Hung CF, Chai CY, Hsu KF, He L, Ling M, Wu TC: Tumor-specific immunity and antiangiogenesis generated by a DNA vaccine encoding calreticulin linked to a tumor antigen. J Clin Invest 108;669-678, 2001
Marshall JL, Gulley JL, Arlen PM, Beetham PK, Tsang KY, Slack R, Hodge JW, Doren S, Grosenbach DW, Hwang J, Fox E, Odogwu L, Park S, Panicali D, Schlom J: Phase I study of sequential vaccinations with fowlpox-CEA (6D)- TRICOM alone and sequentially with vaccinia-CEA (6D)- TRICOM, with and without granulocyte-macrophage colonystimulating factor, in patients with carcinoembryonic antigenexpressing carcinomas. J Clin Oncol 23;720-731, 2005
Morse MA, Clay TM, Hobeika AC, Osada T, Khan S, Chui S, Niedzwiecki D, Panicali D, Schlom J, Lyerly HK: Phase I study of immunization with dendritic cells modified with fowlpox encoding carcinoembryonic antigen and costimulatory molecules. Clin Cancer Res 11;3017-3024, 2005
Soiffer R, Hodi FS, Haluska F, Jung K, Gillessen S, Singer S, Tanabe K, Duda R, Mentzer S, Jaklitsch M, Bueno R, Clift S, Hardy S, Neuberg D, Mulligan R, Webb I, Mihm M, Dranoff G: Vaccination with irradiated, auogous melanoma cells engineered to secrete granulocyte-macrophage colonystimulating factor by adenoviral-mediated gene transfer augments antitumor immunity in patients with metastatic melanoma. J Clin Oncol 21;3343-3350, 2003
Corr M, Lee DJ, Carson DA, Tighe H: Gene vaccination with naked plasmid DNA: mechanism of CTL priming. J Exp Med 84;1555-1560, 1996
Celiker MY, Wang M, Atsidaftos E, Liu X, Liu YE, Jiang Y, Valderrama E, Goldberg ID, Shi YE: Inhibition of Wilms' tumor growth by intramuscular administration of tissue inhibitor of metalloproteinases-4 plasmid DNA. Oncogene 20;4337-4343, 2001
Schneeberger A, Wagner C, Zemann A, Luhrs P, Kutil R, Goos M, Stingl G, Wagner SN: CpG motifs are efficient adjuvants for DNA cancer vaccines. J Invest Derma 123; 371-379, 2004
Yamamoto S, Kuramoto E, Shimada S, Tokunaga T: In vitro augmentation of natural killer cell activity and production of interferon-alpha/beta and -gamma with deoxyribonucleic acid fraction from Mycobacterium bovis BCG. Jpn J Cancer Res 79;866-873, 1988
Krieg AM: CpG motifs in bacterial DNA and their immune effects. Annu Rev Immunol 20;709-760, 2002
Jakob T, Walker PS, Krieg AM, von Stebut E, Udey MC, Vogel JC: Bacterial DNA and CpG-containing oligodeoxynucleotides activate cutaneous dendritic cells and induce IL- 12 production: implications for the augmentation of Th1 responses. Int Arch Allergy Immunol 118;457-461, 1999
Hiraoka K, Yamamoto S, Otsuru S, Nakai S, Tamai K, Morishita R, Ogihara T, Kaneda Y: Enhanced tumor-specific long-term immunity of hemagglutinating [correction of hemaggluttinating] virus of Japan-mediated dendritic cell-tumor fused cell vaccination by coadministration with CpG oligodeoxynucleotides. J Immunol 173;4297-4307, 2004
Bianchi A, Massaia M: Idiotypic vaccination in B-cell malignancies. Mol Med Today 3;435-441, 1997
McCarthy H, Ottensmeier CH, Hamblin TJ, Stevenson FK: Anti-idiotype vaccines. Br J Haema 123;770-781, 2003
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