DNA vaccines to attack cancer
DNA vaccines to attack cancer
Delivery of antigens by injection of the encoding DNA allows access to multiple antigen-presenting pathways. Knowledge of immunological processes can therefore be used to modify construct design to induce selected effector functions. Expression can be directed to specific intracellular sites, and additional genes can be fused or codelivered to amplify responses. Therapeutic vaccination against cancer adds a requirement to overcome tolerance and to activate a weakened immune repertoire. Induction of CD4+ T helper cells is critical for both antibody and T cell effector responses. To activate immunity against tumor antigens, we fused the tumor-derived sequences to genes encoding microbial proteins. This strategy engages T helper cells from the large antimicrobial repertoire for linked help for inducing antibody against cell-surface tumor antigens. The principle of linked T cell help also holds for induction of epitope-specific antitumor CD8+ T cells, but the microbial sequence has to be minimized to avoid competition with tumor antigens. Epitope-specific DNA vaccination leads to powerful antitumor attack and can activate immunity from a profoundly tolerized repertoire. Vaccine designs validated in preclinical models are now in clinical trial with immune responses detected against both tumor antigens and fused microbial antigens. DNA priming is highly efficient, but boosting may benefit from increased antigen expression. Physical methods including electroporation provide increased expression without introducing additional competing antigens. A wide range of cancers can be targeted, and objective assays of response will determine efficacy.
14646-14652
Stevenson, Freda K.
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Ottensmeier, Christian H.
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Johnson, Peter
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Zhu, Delin
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Buchan, Sarah L.
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McCann, Katy J.
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Roddick, Joanne S.
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King, Andrew T.
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McNicholl, Feargl
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Savelyeva, Natalia
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Rice, Jason
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2004
Stevenson, Freda K.
ba803747-c0ac-409f-a9c2-b61fde009f8c
Ottensmeier, Christian H.
42b8a398-baac-4843-a3d6-056225675797
Johnson, Peter
3f6068ce-171e-4c2c-aca9-dc9b6a37413f
Zhu, Delin
49eeb78f-f607-4079-80b3-45574dc41fa5
Buchan, Sarah L.
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McCann, Katy J.
154f6b6d-c8b2-43b2-a8a9-ffe243da40c6
Roddick, Joanne S.
dddd0a9c-ef7a-4cb4-810d-8927ff1ce76f
King, Andrew T.
6f6e30e7-55f9-41e5-8773-205b5d8532ac
McNicholl, Feargl
3d77818d-e3a1-4fe4-a867-5dea43717d25
Savelyeva, Natalia
804c3e15-d260-4717-9b7c-15c16ba87fc7
Rice, Jason
d58d4fcd-8dc0-4599-bf96-62323d579227
Stevenson, Freda K., Ottensmeier, Christian H., Johnson, Peter, Zhu, Delin, Buchan, Sarah L., McCann, Katy J., Roddick, Joanne S., King, Andrew T., McNicholl, Feargl, Savelyeva, Natalia and Rice, Jason
(2004)
DNA vaccines to attack cancer.
Proceedings of the National Academy of Sciences of the United States of America, 101 (s2), .
(doi:10.1073/pnas.0404896101).
Abstract
Delivery of antigens by injection of the encoding DNA allows access to multiple antigen-presenting pathways. Knowledge of immunological processes can therefore be used to modify construct design to induce selected effector functions. Expression can be directed to specific intracellular sites, and additional genes can be fused or codelivered to amplify responses. Therapeutic vaccination against cancer adds a requirement to overcome tolerance and to activate a weakened immune repertoire. Induction of CD4+ T helper cells is critical for both antibody and T cell effector responses. To activate immunity against tumor antigens, we fused the tumor-derived sequences to genes encoding microbial proteins. This strategy engages T helper cells from the large antimicrobial repertoire for linked help for inducing antibody against cell-surface tumor antigens. The principle of linked T cell help also holds for induction of epitope-specific antitumor CD8+ T cells, but the microbial sequence has to be minimized to avoid competition with tumor antigens. Epitope-specific DNA vaccination leads to powerful antitumor attack and can activate immunity from a profoundly tolerized repertoire. Vaccine designs validated in preclinical models are now in clinical trial with immune responses detected against both tumor antigens and fused microbial antigens. DNA priming is highly efficient, but boosting may benefit from increased antigen expression. Physical methods including electroporation provide increased expression without introducing additional competing antigens. A wide range of cancers can be targeted, and objective assays of response will determine efficacy.
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More information
Published date: 2004
Organisations:
Cancer Sciences
Identifiers
Local EPrints ID: 26616
URI: http://eprints.soton.ac.uk/id/eprint/26616
ISSN: 0027-8424
PURE UUID: a732982a-e8b0-4463-ad70-6dcbaaf479c1
Catalogue record
Date deposited: 20 Apr 2006
Last modified: 16 Mar 2024 02:59
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Contributors
Author:
Delin Zhu
Author:
Sarah L. Buchan
Author:
Katy J. McCann
Author:
Joanne S. Roddick
Author:
Andrew T. King
Author:
Feargl McNicholl
Author:
Jason Rice
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