BACKGROUND: The rejection of pig xenografts in humans is initiated by preformed antibodies that may be related to the natural antibodies that formulate a first line of defense against infectious agents. Immunoglobulin gene variable domains encoding the antibodies that react with similar epitopes expressed on xenoantigens and bacteria may share structurally similar antigen-binding site configurations. METHODS: We sequenced the VH immunoglobulin genes and germline progenitors of two rat monoclonal antibodies that recognize pig xenoantigens. Nucleic and amino acid sequences of these xenoantibodies were compared with immunoglobulin genes encoding antibodies that react with bacteria or viruses. RESULTS AND CONCLUSIONS: VH genes encoding rat anti-pig xenoantibodies are expressed in germline configuration and share structural similarities, including identical amino acids in key antigenic contact sites that define antibody canonical structural groups, with antibodies to infectious agents.
BACKGROUND: The rejection of pig xenografts in humans is initiated by preformed antibodies that may be related to the natural antibodies that formulate a first line of defense against infectious agents. Immunoglobulin gene variable domains encoding the antibodies that react with similar epitopes expressed on xenoantigens and bacteria may share structurally similar antigen-binding site configurations. METHODS: We sequenced the VH immunoglobulin genes and germline progenitors of two rat monoclonal antibodies that recognize pig xenoantigens. Nucleic and amino acid sequences of these xenoantibodies were compared with immunoglobulin genes encoding antibodies that react with bacteria or viruses. RESULTS AND CONCLUSIONS: VH genes encoding rat anti-pig xenoantibodies are expressed in germline configuration and share structural similarities, including identical amino acids in key antigenic contact sites that define antibody canonical structural groups, with antibodies to infectious agents.
Authors: Annette Kleihauer; Clare R Gregory; Dominic C Borie; Andrew E Kyles; Irina Shulkin; Insiyyah Patanwala; Joanne Zahorsky-Reeves; Vaughn A Starnes; Yoko Mullen; Ivan T Todorov; Mary Kearns-Jonker Journal: Immunology Date: 2005-09 Impact factor: 7.397
Authors: Joanne L Zahorsky-Reeves; Clare R Gregory; Donald V Cramer; Insiyyah Y Patanwala; Andrew E Kyles; Dominic C Borie; Mary K Kearns-Jonker Journal: BMC Immunol Date: 2006-03-20 Impact factor: 3.615