M.A. Silberg scite author profile

M.A. Silberg

3Publications

97Citation Statements Received

85Citation Statements Given

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Affiliations

University of California, San Francisco, San Francisco General Hospital

Publications

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Domain-based assays of individual antibody concentrations in an oligoclonal combination targeting a single protein

Meng

Silberg

et al. 2012

Analytical Biochemistry

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Quantitation of individual mAbs within a combined antibody drug product is required for preclinical and clinical drug development including pharmacokinetics (PK), toxicology, stability and biochemical characterization studies of such drugs. We have developed an antitoxin (XOMA 3AB) consisting of three recombinant monoclonal antibodies (mAbs) that potently neutralizes the known subtypes of type A botulinum neurotoxin (BoNT/A). The three mAbs bind non-overlapping BoNT/A epitopes with high affinity. XOMA3AB is being developed as a treatment for botulism resulting from BoNT/A. To develop antibody-specific assays, we cloned, expressed, and purified BoNT/A domains from E. coli. Each mAb bound only to its specific domain with affinity comparable to the binding to holotoxin. MAb specific domains were used to develop an ELISA for characterization of the integrity and binding activity of the three mAbs in the drug product. An electrochemiluminescence bridging assay was also developed that is robust to interference from components in serum and we demonstrate that it can be used for PK assays. This type of antigen engineering to generate mAb-specific domains is a general method allowing quantitation and characterization of individual mAbs in a mAb cocktail that bind the same protein and is superior to anti-idiotype approaches.

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Engineered domain-based assays to identify individual antibodies in oligoclonal combinations targeting the same protein

Meng

Garcia-Rodriguez

Manzanarez

et al. 2012

Analytical Biochemistry

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Quantitation of individual mAbs within a combined antibody drug product is required for preclinical and clinical drug development. We have developed two antitoxins (XOMA 3B and XOMA 3E) each consisting of three monoclonal antibodies (mAbs) that neutralize type B and type E botulinum neurotoxin (BoNT/B and BoNT/E) to treat serotype B and E botulism. To develop mAb-specific binding assays for each antitoxin, we mapped the epitopes of the six mAbs. Each mAb bound an epitope on either the BoNT light chain (LC) or translocation domain (HN). Epitope mapping data was used to design LC-HN domains with orthogonal mutations to make them specific for only one mAb in either XOMA 3B or 3E. Mutant LC-HN domains were cloned, expressed, and purified from E. coli. Each mAb bound only to its specific domain with affinity comparable to the binding to holotoxin. Further engineering of domains allowed construction of ELISAs that could characterize the integrity, binding affinity, and identity of each of the six mAbs in XOMA 3B, and 3E without interference from the three BoNT/A mAbs in XOMA 3AB. Such antigen engineering is a general method allowing quantitation and characterization of individual mAbs in a mAb cocktail that bind the same protein.

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Generation, expression and purification of monoclonal-antibody-specific engineered domains to support development of oligoclonal recombinant antitoxins against BoNT/B and BoNT/E

Meng

García

Silberg

et al. 2013

Toxicon

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M.A. Silberg

Domain-based assays of individual antibody concentrations in an oligoclonal combination targeting a single protein

Engineered domain-based assays to identify individual antibodies in oligoclonal combinations targeting the same protein

Generation, expression and purification of monoclonal-antibody-specific engineered domains to support development of oligoclonal recombinant antitoxins against BoNT/B and BoNT/E

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