Vaccination with T cell-defined antigens (original) (raw)
2004, Expert Opinion on Biological Therapy
Tumour immunology encompasses a broad array of biological phenomena including interactions between neoplastic cells and the innate and adaptive immune response. Among immune cells, T cells have taken the centre stage because they can be easily demonstrated to specifically recognise autologous cancer cells. As most tumour-associated antigens are intracellular proteins, T cells appear to be the most suitable tool for cancer-specific attack, as antibodies do not cross the cell membrane and the innate immune response lacks the same level of specificity. Finally, the relative ease in which T cells can be educated through antigen-specific immunisation to recognise cancer cells has elevated them to an even higher stature. In this review, it will be argued that T cells represent a unique anticancer agent, characterised by absolute specificity. Although other therapeutic modalities (antibody-based) have been effectively implemented, a comparison of T cell-based approaches with other modalities goes beyond the purposes of this review and will not be included in the discussion. However, it is obvious that the role of the T cell is limited and other components of the immune response (effector mononuclear phagocytes, natural killer cells, cytokines, chemokines, soluble factors), genetic background and tumour heterogeneity are likely to be necessary for the completion of cancer rejection.
Sign up for access to the world's latest research.
checkGet notified about relevant papers
checkSave papers to use in your research
checkJoin the discussion with peers
checkTrack your impact
Related papers
Antigens recognized on human tumors by cytolytic T lymphocytes: Towards vaccinationq
European Journal of Cancer, 1995
It has been known for many years that cytolytic T lymphocytes that specifically recognize the tumor cells of the same patient can be derived from the blood of melanoma patients. Several of the antigens recognized by these antitumor T lymphocytes have now been completely identified. Some of them are sufficiently tumor-specific to envision their use as antitumor vaccines in selected cancer patients.
Vaccine and antibody-directed T cell tumour immunotherapy
Biochimica et Biophysica Acta (BBA) - Reviews on Cancer, 2004
Clearer evidence for immune surveillance in malignancy and the identification of many new tumour-associated antigens (TAAs) have driven novel vaccine and antibody-targeted responses for therapy in cancer. The exploitation of active immunisation may be particularly favourable for TAA where tolerance is incomplete but passive immunisation may offer an additional strategy where the immune repertoire is affected by either tolerance or immune suppression. This review will consider how to utilise both active and passive types of therapy delivered by T cells in the context of the failure of tumour-specific immunity by presenting cancer patients. This article will outline the progress, problems and prospects of several different vaccine and antibody-targeted approaches for immunotherapy of cancer where proof of principle pre-clinical studies have been or will soon be translated into the clinic. Two examples of vaccination-based therapies where both T cell-and antibody-mediated anti-tumour responses are likely to be relevant and two examples of oncofoetal antigen-specific antibody-directed T cell therapies are described in the following sections: (1) therapeutic vaccination against human papillomavirus (HPV) antigens in cervical neoplasia; (2) B cell lymphoma vaccines including against immunoglobulin idiotype; (3) oncofoetal antigens as tumour targets for redirecting T cells with antibody strategies. D
Activation or frustration of anti-tumor responses by T-cell-based immune modulation
Seminars in Immunology, 1997
Many types of tumors (e.g. virus-induced tumors, melanomas, tumors over-expressing certain oncogenes) often express antigens that can induce T-cell-mediated tumor-specific immune responses. Nonetheless, many such tumors manage to circumvent the induction of an effective anti-tumor T-cell response, as is apparent from the many tumor-bearing patients. Therefore, optimally designed vaccination protocols may evoke a more powerful and competent T-cell-mediated anti-tumor response, allowing the host to effectively deal with at least some cancers. These vaccination approaches might include immunization with whole (tumor) cell-based vaccines, entire tumor antigens or selected T-cell epitopes derived from tumor antigens. This survey is an update of several anti-tumor vaccination approaches employed, and on novel possibilities to target the anti-tumor immune response to preselected tumor-derived T-cell epitopes.
T-cell immune responses to cancer— A new look
Human Immunology, 1991
Three scientific advances have dramatically transformed the nature of tumor immunology from its somewhat woolly background, with generalized discussions on immune surveillance, to a much more precise understanding of the possible basis for immune response to tumors, and, through this, its exploitation for prevention and treatment.
Oligoclonal T cells in human cancer
Medical Oncology, 1998
Many solid tumors are characterised by the infiltration of lymphocytes and their presence has been correlated with a more favourable prognosis. These tumor-infiltrating lymphocytes (TIL), have been shown to possess specific cytolytic reactivity towards autologous tumours, thus suggesting that tumour cells may express antigens capable of eliciting an immune response. Expression of such tumour-associated antigens (TAA) in combination with appropriate accessory signals would lead to the in vivo accumulation of T cells with anti-tumour specificity. Analysis of the composition of the specific T-cell receptor (TCR) of TIL could thus provide information on the nature of the antigen(s) recognised by TIL. In this review, different aspects of the presence of clonal T cells in patients with cancer are discussed.
Loading Preview
Sorry, preview is currently unavailable. You can download the paper by clicking the button above.