Abstract
The exploitation of the physiologic processing and presenting machinery of dendritic cells (DCs) by in vivo loading of tumor-associated antigens may improve the immunogenic potential and clinical efficacy of DC-based cancer vaccines. The approach developed by our group was based on the clinical observation that some patients treated with the infusion of donor lymphocytes transduced to express the HSV-TK suicide gene for relapse of hematologic malignancies, after allogeneic hematopoietic stem cell transplantation, developed a T cell-mediated immune response specifically directed against the HSV-TK gene product.
We demonstrated that lymphocytes genetically modified to express HSV-TK as well as self/tumor antigens, acting as antigen carriers, efficiently target DCs in vivo in tumor-bearing mice. The infusion of TRP-2-transduced lymphocytes induced the establishment of protective immunity and long-term memory in tumor-bearing mice by cross-presentation of the antigen mediated by the CD11c+CD8a+ DCs subset. A similar approach was applied in a clinical setting. Ten patients affected by MAGE-3+ metastatic melanoma were treated with autologous lymphocytes retrovirally transduced to express the MAGE-3 tumor antigen. In three patients, the treatment led to the increase of MAGE-3 specific CD8+ and CD4+ effectors and the development of long-term memory, which ultimately correlated with a favorable clinical outcome. Transduced lymphocytes represent an efficient way for in vivo loading of tumor-associated antigens of DCs.
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References
van der Bruggen P, Traversari C, Chomez P et al (1991) A gene encoding an antigen recognized by cytolytic T lymphocytes on a human melanoma. Science 254:1643–1647
Rosenberg SA, Yang JC, Restifo NP (2004) Cancer immunotherapy: moving beyond current vaccines. Nat Med 10:909–915
Boon T, Coulie PG, Van den Eynde BJ et al (2006) Human T cell responses against melanoma. Annu Rev Immunol 24:175–208
Kenter GG, Welters MJ, Valentijn AR et al (2009) Vaccination against HPV-16 oncoproteins for vulvar intraepithelial neoplasia. N Engl J Med 361:1838–1847
Schwartzentruber DJ, Lawson DH, Richards JM et al (2011) Gp100 peptide vaccine and interleukin-2 in patients with advanced melanoma. N Engl J Med 364:2119–2127
Kantoff PW, Higano CS, Shore ND et al (2010) Sipuleucel-T immunotherapy for castration-resistant prostate cancer. N Engl J Med 363:411–422
Russo V, Bondanza A, Ciceri F et al (2012) A dual role for genetically modified lymphocytes in cancer immunotherapy. Trends Mol Med 18:193–200
Ludewig B, McCoy K, Pericin M et al (2001) Rapid peptide turnover and inefficient presentation of exogenous antigen critically limit the activation of self-reactive CTL by dendritic cells. J Immunol 166:3678–3687
Bonini C, Ferrari G, Verzeletti S et al (1997) HSV-TK gene transfer into donor lymphocytes for control of allogeneic graft-versus-leukemia. Science 276:1719–1724
Ciceri F, Bonini C, Marktel S et al (2007) Antitumor effects of HSV-TK-engineered donor lymphocytes after allogeneic stem-cell transplantation. Blood 109:4698–4707
Mavilio F, Ferrari G, Rossini S et al (1994) Peripheral blood lymphocytes as target cells of retroviral vector-mediated gene transfer. Blood 83:1988–1997
Traversari C, Marktel S, Magnani Z et al (2007) The potential immunogenicity of the TK suicide gene does not prevent full clinical benefit associated with the use of TK-transduced donor lymphocytes in HSCT for hematologic malignancies. Blood 109:4708–4715
Russo V, Cipponi A, Raccosta L et al (2007) Lymphocytes genetically modified to express tumor antigens target DCs in vivo and induce antitumor immunity. J Clin Invest 117:3087–3096
Fontana R, Bregni M, Cipponi A et al (2009) Peripheral blood lymphocytes genetically modified to express the self/tumor antigen MAGE-A3 induce antitumor immune responses in cancer patients. Blood 113:1651–1660
Russo V, Pilla L, Lunghi F et al (2013) Clinical and immunologic responses in melanoma patients vaccinated with MAGE-A3-genetically modified lymphocytes. Int J Cancer 132:2557–2566
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Traversari, C., Russo, V. (2016). T Cells as Antigen Carriers for Anti-tumor Vaccination. In: Bondanza, A., Casucci, M. (eds) Tumor Immunology. Methods in Molecular Biology, vol 1393. Humana Press, New York, NY. https://doi.org/10.1007/978-1-4939-3338-9_9
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DOI: https://doi.org/10.1007/978-1-4939-3338-9_9
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