BACKGROUND/AIMS: Patients with anti-glomerular basement membrane diseases produce pathogenic autoantibodies (autoAb) that deposit in the kidney and initiate severe inflammation. Restricted antigenic specificity of the autoAb against 2 regions (with related sequences) within alpha3(IV)NC1, along with shared idiotypes (i.e. structural determinants), among pathogenic human autoAb suggested that common genetic elements encode the autoAb. The aim of this study was to determine whether the idiotypic relatedness of the autoAb was due to the fact that unique and similar genes were used to encode them, divergent genes were used to produce Ab with similar Ag-binding properties and conformation, or if other mechanisms were operative. METHODS: The encoding V gene sequences of pathogenic human anti-alpha3(IV)NC1 Ab, derived following immunization of XenoMice which produce human but not murine IgG, with alpha3(IV)NC1 were determined. Predicted conformations of autoAb-alpha3(IV)NC1 interactions were derived using the Ab sequences and molecularmodels of the alpha3(IV)NC1 structure. RESULTS: The pathogenic Ab were encoded by multiple, common V(H) and V(L) gene families indicating that they were not encoded by a unique subset of genes and that normal individuals have the capacity to produce them. However, modeling of the Ag-Ab interactions suggested that although the contact regions varied for individual Ab, the optimized energy constraints facilitate interaction of both Ab-binding regions with pathogenically relevant epitopes on alpha3(IV)NC1. CONCLUSIONS: The results suggest that the repetitive nature and relatedness of the alpha3(IV)NC1 antigenic epitopes facilitate cross-linking of pathogenic Ab, in vivo, by allowing both IgG Fab to bind to the basement membrane. This most likely accounts for the high-affinity Ab binding we and others observed among human anti-alpha3(IV)NC1 Ab. Based on these observations, we postulate that this interaction provides for the stability of the Ab interaction, resulting in a high-affinity interaction that serves as an ideal scaffold for optimal FcR engagement and complement activation, thereby accelerating inflammation and contributing to the rapidly progressive nature of this disease. Copyright 2009 S. Karger AG, Basel.
BACKGROUND/AIMS: Patients with anti-glomerular basement membrane diseases produce pathogenic autoantibodies (autoAb) that deposit in the kidney and initiate severe inflammation. Restricted antigenic specificity of the autoAb against 2 regions (with related sequences) within alpha3(IV)NC1, along with shared idiotypes (i.e. structural determinants), among pathogenic human autoAb suggested that common genetic elements encode the autoAb. The aim of this study was to determine whether the idiotypic relatedness of the autoAb was due to the fact that unique and similar genes were used to encode them, divergent genes were used to produce Ab with similar Ag-binding properties and conformation, or if other mechanisms were operative. METHODS: The encoding V gene sequences of pathogenic human anti-alpha3(IV)NC1 Ab, derived following immunization of XenoMice which produce human but not murine IgG, with alpha3(IV)NC1 were determined. Predicted conformations of autoAb-alpha3(IV)NC1 interactions were derived using the Ab sequences and molecularmodels of the alpha3(IV)NC1 structure. RESULTS: The pathogenic Ab were encoded by multiple, common V(H) and V(L) gene families indicating that they were not encoded by a unique subset of genes and that normal individuals have the capacity to produce them. However, modeling of the Ag-Ab interactions suggested that although the contact regions varied for individual Ab, the optimized energy constraints facilitate interaction of both Ab-binding regions with pathogenically relevant epitopes on alpha3(IV)NC1. CONCLUSIONS: The results suggest that the repetitive nature and relatedness of the alpha3(IV)NC1 antigenic epitopes facilitate cross-linking of pathogenic Ab, in vivo, by allowing both IgG Fab to bind to the basement membrane. This most likely accounts for the high-affinity Ab binding we and others observed among human anti-alpha3(IV)NC1 Ab. Based on these observations, we postulate that this interaction provides for the stability of the Ab interaction, resulting in a high-affinity interaction that serves as an ideal scaffold for optimal FcR engagement and complement activation, thereby accelerating inflammation and contributing to the rapidly progressive nature of this disease. Copyright 2009 S. Karger AG, Basel.
Authors: R Kalluri; A Torre; C F Shield; E D Zamborsky; M C Werner; E Suchin; G Wolf; U M Helmchen; L P van den Heuvel; R Grossman; S Aradhye; E G Neilson Journal: Transplantation Date: 2000-02-27 Impact factor: 4.939
Authors: Kevin E C Meyers; Juanita Allen; Jeffrey Gehret; Aya Jacobovits; Michael Gallo; Eric G Neilson; Helmut Hopfer; Raghu Kalluri; Michael P Madaio Journal: Kidney Int Date: 2002-05 Impact factor: 10.612
Authors: Nino Kvirkvelia; Malgorzata McMenamin; Marie Warren; Ravirajsinh N Jadeja; Sai Karthik Kodeboyina; Ashok Sharma; Wenbo Zhi; Paul M O'Connor; Raghavan Raju; Rudolf Lucas; Michael P Madaio Journal: Kidney Int Date: 2018-05-04 Impact factor: 10.612
Authors: Michael P Madaio; Istvan Czikora; Nino Kvirkvelia; Malgorzata McMenamin; Qiang Yue; Ting Liu; Haroldo A Toque; Supriya Sridhar; Katherine Covington; Rabei Alaisami; Paul M O'Connor; Robert W Caldwell; Jian-Kang Chen; Matthias Clauss; Michael W Brands; Douglas C Eaton; Maritza J Romero; Rudolf Lucas Journal: Kidney Int Date: 2019-03-21 Impact factor: 18.998