Structural and affinity studies of IgM polyreactive natural autoantibodies

Natural polyreactive autoantibodies (NAA) are an important component of the normal B cell repertoire. One intriguing characteristic of these Abs is their binding to various dissimilar Ags. It has been generally assumed that these Abs bind the Ags with low affinity, and are encoded by germline genes....

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Veröffentlicht in:	The Journal of immunology (1950) 1997-01, Vol.158 (2), p.968-976
Hauptverfasser:	Diaw, L, Magnac, C, Pritsch, O, Buckle, M, Alzari, PM, Dighiero, G
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Animals Antibody Affinity Antibody Affinity - immunology Autoantibodies Autoantibodies - immunology Base Sequence Biochemistry, Molecular Biology Female Immunity, Innate - immunology Immunity, Natural Immunoglobulin Heavy Chains Immunoglobulin Heavy Chains - immunology Immunoglobulin kappa-Chains Immunoglobulin kappa-Chains - immunology Immunoglobulin Light Chains Immunoglobulin Light Chains - immunology Immunoglobulin M Immunoglobulin M - analysis Immunoglobulin M - immunology Immunoglobulin M - metabolism Immunoglobulin Variable Region Immunoglobulin Variable Region - immunology Kinetics Life Sciences Male Mice Mice, Inbred BALB C Mice, Inbred CBA Mice, Inbred NZB Molecular Sequence Data
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container_title	The Journal of immunology (1950)
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creator	Diaw, L Magnac, C Pritsch, O Buckle, M Alzari, PM Dighiero, G
description	Natural polyreactive autoantibodies (NAA) are an important component of the normal B cell repertoire. One intriguing characteristic of these Abs is their binding to various dissimilar Ags. It has been generally assumed that these Abs bind the Ags with low affinity, and are encoded by germline genes. We have used surface plasmon resonance to determine binding of avidities, and conducted a structural analysis of five murine monoclonal natural autoantibodies displaying a typical polyreactive binding pattern against cytoskeleton Ags and DNA. We show that 1) all the five Abs bind the different Ags with kinetic constants similar to those observed for immune Abs; 2) they express a restricted set of V(H) and V(L) genes, since the same V(H) gene is expressed by three out of the five, and one particular Vkappa gene was expressed twice. In addition, a single D gene segment was used by three of the five Abs; and 3) they express, in most cases, genes in a close germline configuration. Our amino acid sequence and modeling studies show that the distribution of exposed side chains in the NAA paratopes is close to the general pattern observed in the complementarity-determining regions (CDRs) of variable domains from immune Abs. Although CDR3 regions of the heavy chain have been postulated to play a major role in determining polyreactivity on the basis of recombinatorial experiments, our results failed to show any distinctive particularity of this region in terms of length or charge when compared with classical immune Abs.
doi_str_mv	10.4049/jimmunol.158.2.968
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One intriguing characteristic of these Abs is their binding to various dissimilar Ags. It has been generally assumed that these Abs bind the Ags with low affinity, and are encoded by germline genes. We have used surface plasmon resonance to determine binding of avidities, and conducted a structural analysis of five murine monoclonal natural autoantibodies displaying a typical polyreactive binding pattern against cytoskeleton Ags and DNA. We show that 1) all the five Abs bind the different Ags with kinetic constants similar to those observed for immune Abs; 2) they express a restricted set of V(H) and V(L) genes, since the same V(H) gene is expressed by three out of the five, and one particular Vkappa gene was expressed twice. In addition, a single D gene segment was used by three of the five Abs; and 3) they express, in most cases, genes in a close germline configuration. Our amino acid sequence and modeling studies show that the distribution of exposed side chains in the NAA paratopes is close to the general pattern observed in the complementarity-determining regions (CDRs) of variable domains from immune Abs. 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One intriguing characteristic of these Abs is their binding to various dissimilar Ags. It has been generally assumed that these Abs bind the Ags with low affinity, and are encoded by germline genes. We have used surface plasmon resonance to determine binding of avidities, and conducted a structural analysis of five murine monoclonal natural autoantibodies displaying a typical polyreactive binding pattern against cytoskeleton Ags and DNA. We show that 1) all the five Abs bind the different Ags with kinetic constants similar to those observed for immune Abs; 2) they express a restricted set of V(H) and V(L) genes, since the same V(H) gene is expressed by three out of the five, and one particular Vkappa gene was expressed twice. In addition, a single D gene segment was used by three of the five Abs; and 3) they express, in most cases, genes in a close germline configuration. Our amino acid sequence and modeling studies show that the distribution of exposed side chains in the NAA paratopes is close to the general pattern observed in the complementarity-determining regions (CDRs) of variable domains from immune Abs. 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subjects	Amino Acid Sequence Animals Antibody Affinity Antibody Affinity - immunology Autoantibodies Autoantibodies - immunology Base Sequence Biochemistry, Molecular Biology Female Immunity, Innate - immunology Immunity, Natural Immunoglobulin Heavy Chains Immunoglobulin Heavy Chains - immunology Immunoglobulin kappa-Chains Immunoglobulin kappa-Chains - immunology Immunoglobulin Light Chains Immunoglobulin Light Chains - immunology Immunoglobulin M Immunoglobulin M - analysis Immunoglobulin M - immunology Immunoglobulin M - metabolism Immunoglobulin Variable Region Immunoglobulin Variable Region - immunology Kinetics Life Sciences Male Mice Mice, Inbred BALB C Mice, Inbred CBA Mice, Inbred NZB Molecular Sequence Data
title	Structural and affinity studies of IgM polyreactive natural autoantibodies
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