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Immunochemical termination of self-tolerance.


ABSTRACT: The ability to selectively induce a strong immune response against self-proteins, or increase the immunogenicity of specific epitopes in foreign antigens, would have a significant impact on the production of vaccines for cancer, protein-misfolding diseases, and infectious diseases. Here, we show that site-specific incorporation of an immunogenic unnatural amino acid into a protein of interest produces high-titer antibodies that cross-react with WT protein. Specifically, mutation of a single tyrosine residue (Tyr(86)) of murine tumor necrosis factor-alpha (mTNF-alpha) to p-nitrophenylalanine (pNO(2)Phe) induced a high-titer antibody response in mice, whereas no significant antibody response was observed for a Tyr(86) --> Phe mutant. The antibodies generated against the pNO(2)Phe are highly cross-reactive with native mTNF-alpha and protect mice against lipopolysaccharide (LPS)-induced death. This approach may provide a general method for inducing an antibody response to specific epitopes of self- and foreign antigens that lead to a neutralizing immune response.

SUBMITTER: Grunewald J 

PROVIDER: S-EPMC2516224 | biostudies-literature | 2008 Aug

REPOSITORIES: biostudies-literature

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Immunochemical termination of self-tolerance.

Grünewald Jan J   Tsao Meng-Lin ML   Perera Roshan R   Dong Liqun L   Niessen Frank F   Wen Ben G BG   Kubitz Diane M DM   Smider Vaughn V VV   Ruf Wolfram W   Nasoff Marc M   Lerner Richard A RA   Schultz Peter G PG  

Proceedings of the National Academy of Sciences of the United States of America 20080806 32


The ability to selectively induce a strong immune response against self-proteins, or increase the immunogenicity of specific epitopes in foreign antigens, would have a significant impact on the production of vaccines for cancer, protein-misfolding diseases, and infectious diseases. Here, we show that site-specific incorporation of an immunogenic unnatural amino acid into a protein of interest produces high-titer antibodies that cross-react with WT protein. Specifically, mutation of a single tyro  ...[more]

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