SAXS data analysis and modeling of tetravalent neutralizing antibody CD4–IgG2 −/+ HIV-1 gp120 revealed that first two gp120 bind to the same Fab arm

This communication describes SAXS data based global structures of tetravalent antibody CD4–IgG2 and its dimeric to pentameric complexes with gp120s. Comparison of models brought forth that while the two CD4s grafted on each arm remain tightly packed in the unliganded antibody, they enable binding of first two gp120s preferentially to the same Fab arm in an asymmetric manner. Retention of residues in the CD4–Fab linker earlier reasoned to enable bi-fold collapse of gp120-bound soluble CD4, and observed asymmetry of the (CD4–IgG2)/(gp120)2 complex suggest that encoded flexibility in CD4–Fab linker is a critical structure–function factor for this broad spectrum neutralizing antibody.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► SAXS data analysis and modeling provided global shape of CD4–IgG2 and its complexes with HIV-1 gp120. ► Models of ternary complex revealed that first two gp120s bind to same Fab arm. ► Grafted CD4s occupy a closed conformation in the unliganded antibody. ► CD4–Fab linker plays critical role in ligand binding induced shape change. ► Multiple binding is key to HIV neutralization function.