Idiotypic determinants characterizing certain antibody specificities have proven valuable structural and genetic markers in studies of antibody diversity and regulation. The major crossreacting idiotype in strain A/J mice immunized with para-azophenylarsonate is heritable and encoded by germline genes. We have demonstrated (in collaboration with M. Gefter) that hybridoma proteins bearing this predominant idiotype are serologically and structurally microheterogeneous but are all derived from a single VH germline gene. In addition, a set of arsonate-nonbinding hybridoma proteins bearing this same predominant idiotype have been produced by immunization with anti-idiotype. Structural studies have demonstrated that these anti-idiotype antibodies are closely related to the arsonate-binding, idiotype-bearing antibodies and are derived from the same V?H? and V?L? germline genes. The loss of antigen binding in these molecules has been correlated with somatic mutation involving either the V?H? gene and/or J?H? gene segments. In addition, among arsonate-binding hybridomas it is possible to identify a set that have lost idiotype by virtue of somatic mutation in the V?H? gene or by utilization of different D-gene segments than are ordinarily utilized. The Fab fragment from an arsonate-binding, idiotype-bearing hybridoma has been crystallized, which makes it likely that the three-dimensional structure responsible for this idiotype will be known. In addition to the predominant idiotype, a second idiotype family (Id?36-60?) among A/J anti-azophenylarsonate antibodies, which are structurally and serologically distinct from the predominant idiotype, have been characterized. The complete variable region protein sequences of Id?36-60? hybridomas for both the A/J and BALB/c strains have been determined. The entire Id?36-60? family arises by somatic mutation from single germline V?H? genes which are closely related in each strain. In addition, the complete light chain variable region sequences of hybridomas from the two strains bearing Id?36-60? have been determined. These studies, in combination with chain recombination studies, indicate that the protein encoded directly by the germline gene in the BALB/c strain is associated with low affinity for the antigen, indicating that somatic mutation in the system is necessary to enhance arsonate affinity. (AB)

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA024432-23
Application #
3166428
Study Section
Allergy and Immunology Study Section (ALY)
Project Start
1978-05-01
Project End
1986-08-31
Budget Start
1985-09-01
Budget End
1986-08-31
Support Year
23
Fiscal Year
1985
Total Cost
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
City
Boston
State
MA
Country
United States
Zip Code
Parhami-Seren, Behnaz; Krudysz, Jolanta; Tsantili, Panayota (2002) Affinity panning of peptide libraries using anti-streptokinase monoclonal antibodies: selection of an inhibitor of plasmin(ogen) active site. J Immunol Methods 267:185-98
Krykbaev, Rustem A; Tsantili, Panayota; Jeffrey, Philip D et al. (2002) Modifying specificity of antidigoxin antibodies using insertional mutagenesis. Protein Sci 11:2899-908
Parhami-Seren, Behnaz; Viswanathan, Malini; Margolies, Michael N (2002) Selection of high affinity p-azophenyarsonate Fabs from heavy-chain CDR2 insertion libraries. J Immunol Methods 259:43-53
Parhami-Seren, Behnaz; Haberly, Richard; Margolies, Michael N et al. (2002) Ouabain-binding protein(s) from human plasma. Hypertension 40:220-8
Parhami-Seren, B; Viswanathan, M; Strong, R K et al. (2001) Structural analysis of mutants of high-affinity and low-affinity p-azophenylarsonate-specific antibodies generated by alanine scanning of heavy chain complementarity-determining region 2. J Immunol 167:5129-35
Parhami-Seren, B; Bell, C; Margolies, M N et al. (1999) Monoclonal antibodies that distinguish between two related digitalis glycosides, ouabain and digoxin. J Immunol 163:4360-6
Wong, Y W; Gill, D S; Parhami-Seren, B et al. (1998) Structural requirements for a specificity switch and for maintenance of affinity using mutational analysis of a phage-displayed anti-arsonate antibody of Fab heavy chain first complementarity-determining region. J Immunol 160:5990-7
Gill, D S; Wong, Y W; Margolies, M N (1997) Differences in sequence-specific expression of two anti-arsonate Fabs in E. coli. Biotechnol Prog 13:692-4
Parhami-Seren, B; Keel, T; Reed, G L (1997) Sequences of antigenic epitopes of streptokinase identified via random peptide libraries displayed on phage. J Mol Biol 271:333-41
Parhami-Seren, B; Margolies, M N (1996) Contribution of heavy chain junctional amino acid diversity to antibody affinity among p-azophenylarsonate-specific antibodies. J Immunol 157:2066-72

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