J D Gordan1, R H Vonderheide. 1. Abramson Family Cancer Research Institute, University of Pennsylvania Cancer Center and Department of Medicine, University of Pennsylvania School of Medicine, Philadelphia, PA 19104, USA.
Abstract
BACKGROUND: Clinically successful Ag-specific cancer immunotherapy depends on the identification of tumor-rejection Ags. Historically, tumor Ags have been identified by analyzing cancer patients' own T-cell or Ab responses. METHODS: The unveiling of the human genome and optimized immunological analytical tools, particularly 'reverse immunology', have made it possible to screen any given protein for immunogenic epitopes. These advances enable the immunological characterization of universal tumor-associated gene products that mediate critical functions for tumor growth and development. RESULTS: Four examples of candidate universal tumor Ags reviewed here include the telomerase reverse transcriptase (hTERT), the inhibitor of apoptosis survivin, the p53-interacting protein MDM2, and the cytochrome P450 isoform 1B1--each at various levels of preclinical and clinical development. DISCUSSION: The cardinal feature of universal TAA is that they are expressed in (nearly) all tumors and in no normal tissues. They are directly involved in the malignant phenotype of the tumor. Certain peptides derived from such Ags are expressed on the tumor-cell surface, as evidenced by Ag-specific, MHC-restricted T-cell anti-tumor reactivity in vitro. It is hoped that these features imply a pre-existing, high-affinity T-cell pool that can be activated in vivo in patients, without immunoselection of variant tumor cells no longer expressing the Ag of choice.
BACKGROUND: Clinically successful Ag-specific cancer immunotherapy depends on the identification of tumor-rejection Ags. Historically, tumor Ags have been identified by analyzing cancerpatients' own T-cell or Ab responses. METHODS: The unveiling of the human genome and optimized immunological analytical tools, particularly 'reverse immunology', have made it possible to screen any given protein for immunogenic epitopes. These advances enable the immunological characterization of universal tumor-associated gene products that mediate critical functions for tumor growth and development. RESULTS: Four examples of candidate universal tumor Ags reviewed here include the telomerase reverse transcriptase (hTERT), the inhibitor of apoptosis survivin, the p53-interacting protein MDM2, and the cytochrome P450 isoform 1B1--each at various levels of preclinical and clinical development. DISCUSSION: The cardinal feature of universal TAA is that they are expressed in (nearly) all tumors and in no normal tissues. They are directly involved in the malignant phenotype of the tumor. Certain peptides derived from such Ags are expressed on the tumor-cell surface, as evidenced by Ag-specific, MHC-restricted T-cell anti-tumor reactivity in vitro. It is hoped that these features imply a pre-existing, high-affinity T-cell pool that can be activated in vivo in patients, without immunoselection of variant tumor cells no longer expressing the Ag of choice.
Authors: Chrystal M Paulos; Megan M Suhoski; Gabriela Plesa; Tianying Jiang; Samik Basu; Tatiana N Golovina; Shuguang Jiang; Nicole A Aqui; Daniel J Powell; Bruce L Levine; Richard G Carroll; James L Riley; Carl H June Journal: Immunol Res Date: 2008 Impact factor: 2.829
Authors: Barbara Seliger; Sven P Dressler; Chiara Massa; Christian V Recktenwald; Florian Altenberend; Juergen Bukur; Francesco M Marincola; Ena Wang; Stefan Stevanovic; Rudolf Lichtenfels Journal: Proteomics Date: 2011-05-18 Impact factor: 3.984
Authors: Michael J Ciesielski; Danuta Kozbor; Carla A Castanaro; Tara A Barone; Robert A Fenstermaker Journal: Cancer Immunol Immunother Date: 2008-04-26 Impact factor: 6.968
Authors: Thomas Schumacher; Claus Ruehland; Christine Schultheiss; Marc Brinkman; Franz Roedel; Christian O A Reiser; Juergen Hess; Christoph Reichel Journal: Int J Biomed Sci Date: 2007-09
Authors: David W Leung; Chris Tompkins; Jim Brewer; Alexey Ball; Mike Coon; Valerie Morris; David Waggoner; Jack W Singer Journal: Mol Cancer Date: 2004-05-13 Impact factor: 27.401
Authors: Ahmed M Aref; Neil T Hoa; Lisheng Ge; Anshu Agrawal; Maria Dacosta-Iyer; Nils Lambrecht; Yi Ouyang; Andrew N Cornforth; Martin R Jadus Journal: Onco Targets Ther Date: 2014-06-13 Impact factor: 4.147