Potent efficacy of an IgG-specific endoglycosidase against IgG-mediated pathologies.

Endo-β-N-acetylglucosaminidases (ENGases) that specifically hydrolyze the Asn297-linked glycan on immunoglobulin G (IgG) antibodies, the major molecular determinant of fragment crystallizable (Fc) γ receptor (FcγR) binding, are exceedingly rare. All previously characterized IgG-specific ENGases are multi-domain proteins secreted as an immune evasion strategy by Streptococcus pyogenes strains. Here, using in silico analysis and mass spectrometry techniques, we identified a family of single-domain ENGases secreted by pathogenic corynebacterial species that exhibit strict specificity for IgG antibodies.

Combinatorially restricted computational design of protein-protein interfaces to produce IgG heterodimers.

Redesigning protein-protein interfaces is an important tool for developing therapeutic strategies. Interfaces can be redesigned by in silico screening, which allows for efficient sampling of a large protein space before experimental validation. However, computational costs limit the number of combinations that can be reasonably sampled.

Large-scale evaluation efforts and their implications for the field.

The BUILD initiative is part of the Diversity Program Consortium, which the National Institutes of Health funded to increase diversity in biomedical research. This chapter aims to identify implications for the field from the multisite evaluation of BUILD initiative programs by reviewing the work undertaken by the authors of the other chapters in this issue. Given the complexities involved in multisite evaluations, innovative approaches and methods were used to balance the needs of each site with the overall objectives of the broader initiative.