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  • Mechanistic studies of the immunochemical termination of self-tolerance with unnatural amino acids.

Mechanistic studies of the immunochemical termination of self-tolerance with unnatural amino acids.

Proceedings of the National Academy of Sciences of the United States of America (2009-02-28)
Jan Grünewald, Grady S Hunt, Liqun Dong, Frank Niessen, Ben G Wen, Meng-Lin Tsao, Roshan Perera, Mingchao Kang, Bryan A Laffitte, Sassan Azarian, Wolfram Ruf, Marc Nasoff, Richard A Lerner, Peter G Schultz, Vaughn V Smider
ABSTRACT

For more than 2 centuries active immunotherapy has been at the forefront of efforts to prevent infectious disease [Waldmann TA (2003) Nat Med 9:269-277]. However, the decreased ability of the immune system to mount a robust immune response to self-antigens has made it more difficult to generate therapeutic vaccines against cancer or chronic degenerative diseases. Recently, we showed that the site-specific incorporation of an immunogenic unnatural amino acid into an autologous protein offers a simple and effective approach to overcome self-tolerance. Here, we characterize the nature and durability of the polyclonal IgG antibody response and begin to establish the generality of p-nitrophenylalanine (pNO(2)Phe)-induced loss of self-tolerance. Mutation of several surface residues of murine tumor necrosis factor-alpha (mTNF-alpha) independently to pNO(2)Phe leads to a T cell-dependent polyclonal and sustainable anti-mTNF-alpha IgG autoantibody response that lasts for at least 40 weeks. The antibodies bind multiple epitopes on mTNF-alpha and protect mice from severe endotoxemia induced by lipopolysaccharide (LPS) challenge. Immunization of mice with a pNO(2)Phe(43) mutant of murine retinol-binding protein (RBP4) also elicited a high titer IgG antibody response, which was cross-reactive with wild-type mRBP4. These findings suggest that this may be a relatively general approach to generate effective immunotherapeutics against cancer-associated or other weakly immunogenic antigens.

MATERIALS
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Brand
Product Description

Sigma-Aldrich
4-Nitro-DL-phenylalanine, 98%