Profile identification of disease-associated humoral antigens using AMIDA, a novel proteomics-based technology

O. Gires; M. Münz; M. Schaffrik; C. Kieu; J. Rauch; M. Ahlemann; D. Eberle; B. Mack; B. Wollenberg; S. Lang; T. Hofmanm; W. Hammerschmidt; R. Zeidler

doi:10.1007/s00018-004-4045-8

Profile identification of disease-associated humoral antigens using AMIDA, a novel proteomics-based technology

O. Gires, M. Münz, M. Schaffrik, C. Kieu, J. Rauch, M. Ahlemann, D. Eberle, B. Mack, B. Wollenberg, S. Lang, T. Hofmanm, W. Hammerschmidt, R. Zeidler

Research output: Contribution to journal › Article › peer-review

61 Scopus citations

Abstract

We describe AMIDA (autoantibody-mediated identification of antigens), a novel target identification technology based on the immunoprecipitation of disease-specific antigens by autologous serum antibodies followed by two-dimensional electrophoretic separation, and their identification via mass spectrometry. Twenty-seven potential carcinoma antigens were identified including proteins of hitherto unknown function. Validation of one of the identified antigens, cytokeratin 8, revealed its de novo expression in hyperplastic tissue, gradual overexpression with increasing malignancy, and ectopic localization on the cell surface. Furthermore, a strong prevalence of CK8-specific antibodies occurred in the serum of cancer patients already at early disease stages. In situ hybridization for one marker of unknown function, KIAA1273/TOB3, demonstrated its strong overexpression in head and neck carcinomas, thus making it a likely tumor antigen candidate. Eventually, AMIDA could foster significant improvements for the diagnosis and therapy of human diseases eliciting a humoral immune response, and allows for the rapid identification of new target molecules.

Original language	English
Pages (from-to)	1198-1207
Number of pages	10
Journal	Cellular and Molecular Life Sciences
Volume	61
Issue number	10
DOIs	https://doi.org/10.1007/s00018-004-4045-8
State	Published - May 2004
Externally published	Yes

Keywords

AMIDA
CK8
HNSCC
Humoral antigens
KIAA1273/TOB3

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s00018-004-4045-8

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Gires, O., Münz, M., Schaffrik, M., Kieu, C., Rauch, J., Ahlemann, M., Eberle, D., Mack, B., Wollenberg, B., Lang, S., Hofmanm, T., Hammerschmidt, W., & Zeidler, R. (2004). Profile identification of disease-associated humoral antigens using AMIDA, a novel proteomics-based technology. Cellular and Molecular Life Sciences, 61(10), 1198-1207. https://doi.org/10.1007/s00018-004-4045-8

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title = "Profile identification of disease-associated humoral antigens using AMIDA, a novel proteomics-based technology",

abstract = "We describe AMIDA (autoantibody-mediated identification of antigens), a novel target identification technology based on the immunoprecipitation of disease-specific antigens by autologous serum antibodies followed by two-dimensional electrophoretic separation, and their identification via mass spectrometry. Twenty-seven potential carcinoma antigens were identified including proteins of hitherto unknown function. Validation of one of the identified antigens, cytokeratin 8, revealed its de novo expression in hyperplastic tissue, gradual overexpression with increasing malignancy, and ectopic localization on the cell surface. Furthermore, a strong prevalence of CK8-specific antibodies occurred in the serum of cancer patients already at early disease stages. In situ hybridization for one marker of unknown function, KIAA1273/TOB3, demonstrated its strong overexpression in head and neck carcinomas, thus making it a likely tumor antigen candidate. Eventually, AMIDA could foster significant improvements for the diagnosis and therapy of human diseases eliciting a humoral immune response, and allows for the rapid identification of new target molecules.",

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Gires, O, Münz, M, Schaffrik, M, Kieu, C, Rauch, J, Ahlemann, M, Eberle, D, Mack, B, Wollenberg, B, Lang, S, Hofmanm, T, Hammerschmidt, W & Zeidler, R 2004, 'Profile identification of disease-associated humoral antigens using AMIDA, a novel proteomics-based technology', Cellular and Molecular Life Sciences, vol. 61, no. 10, pp. 1198-1207. https://doi.org/10.1007/s00018-004-4045-8

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AU - Gires, O.

AU - Münz, M.

AU - Schaffrik, M.

AU - Kieu, C.

AU - Rauch, J.

AU - Ahlemann, M.

AU - Eberle, D.

AU - Mack, B.

AU - Wollenberg, B.

AU - Lang, S.

AU - Hofmanm, T.

AU - Hammerschmidt, W.

AU - Zeidler, R.

PY - 2004/5

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N2 - We describe AMIDA (autoantibody-mediated identification of antigens), a novel target identification technology based on the immunoprecipitation of disease-specific antigens by autologous serum antibodies followed by two-dimensional electrophoretic separation, and their identification via mass spectrometry. Twenty-seven potential carcinoma antigens were identified including proteins of hitherto unknown function. Validation of one of the identified antigens, cytokeratin 8, revealed its de novo expression in hyperplastic tissue, gradual overexpression with increasing malignancy, and ectopic localization on the cell surface. Furthermore, a strong prevalence of CK8-specific antibodies occurred in the serum of cancer patients already at early disease stages. In situ hybridization for one marker of unknown function, KIAA1273/TOB3, demonstrated its strong overexpression in head and neck carcinomas, thus making it a likely tumor antigen candidate. Eventually, AMIDA could foster significant improvements for the diagnosis and therapy of human diseases eliciting a humoral immune response, and allows for the rapid identification of new target molecules.

AB - We describe AMIDA (autoantibody-mediated identification of antigens), a novel target identification technology based on the immunoprecipitation of disease-specific antigens by autologous serum antibodies followed by two-dimensional electrophoretic separation, and their identification via mass spectrometry. Twenty-seven potential carcinoma antigens were identified including proteins of hitherto unknown function. Validation of one of the identified antigens, cytokeratin 8, revealed its de novo expression in hyperplastic tissue, gradual overexpression with increasing malignancy, and ectopic localization on the cell surface. Furthermore, a strong prevalence of CK8-specific antibodies occurred in the serum of cancer patients already at early disease stages. In situ hybridization for one marker of unknown function, KIAA1273/TOB3, demonstrated its strong overexpression in head and neck carcinomas, thus making it a likely tumor antigen candidate. Eventually, AMIDA could foster significant improvements for the diagnosis and therapy of human diseases eliciting a humoral immune response, and allows for the rapid identification of new target molecules.

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ER -

Profile identification of disease-associated humoral antigens using AMIDA, a novel proteomics-based technology

Abstract

Keywords

UN SDGs

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