Deimmunization of monoclonal antibodies.

Immunogenicity is a major limitation to therapy with certain monoclonal antibodies and proteins. A major driver for immunogenicity is the presence of human T-cell epitopes within the protein sequence which can activate helper T-cells resulting in the sustained production of antibodies and neutralization of the therapeutic effect. Deimmunization is a new technology for location and removal of T-cell epitopes through the combined use of immunological and molecular biology techniques. In the case of deimmunization of antibodies, mutations to remove T-cell epitopes can generally be introduced without significantly reducing the binding affinity of the antibody. Typically, "deimmunized" antibodies are created with human constant regions and by expression of genes encoding these antibodies in mammalian cells. This chapter details a method for creation of a deimmunized antibody for production in mammalian cells.

The CD4+ T-cell response to adenovirus is focused against conserved residues within the hexon protein.

Adenovirus is a significant pathogen in immunocompromised patients and is widely utilized as a gene delivery vector, so a detailed understanding of the human immune response to adenovirus infection is critical. This study characterized the adenovirus-specific CD4(+) T-cell response of healthy donors by incubation with whole virus or with individual hexon and fiber proteins. Adenovirus-specific CD4(+) T cells averaged 0.26 % of the CD4(+) T-cell pool and were detectable in all donors. T cells recognizing the highly conserved hexon protein accounted for 0.09 %, whereas no response was observed against the fiber protein. A panel of hexon-specific CD4(+) T-cell clones was generated and shown to lyse targets infected with adenovirus from different serotypes and species. Three CD4 T-cell epitopes are described, which map to highly conserved regions of the hexon protein.