Nerve growth factor alpha subunit: effect of site-directed mutations on catalytic activity and 7S NGF complex formation

Mouse alpha- and gamma-nerve growth factor (NGF) are glandular kallikreins that form a non-covalent complex (7S NGF) with beta-NGF. gamma-NGF is an active arginine-specific esteropeptidase; the alpha-subunit is catalytically inactive and has a zymogen-like conformation. Site-directed mutagenesis of alpha-NGF to alter the N-terminus and three residues in loop 7, a region that contributes to the catalytic center, restored substantial catalytic activity against N-benzoyl arginine-p-nitroanilide as substrate in two derivatives although they were not as active as recombinant gamma-NGF. Seven of the 15 derivatives that remained more alpha-like were able to substitute for native alpha-NGF in reforming 7S complexes; the other eight derivatives that were more gamma-like showed greatly reduced ability to do so. However, the most gamma-like alpha-NGF derivative could not substitute for native gamma-NGF in 7S complex formation. These findings suggest that the alpha-NGF backbone can be corrected to a functional enzyme by the addition of a normal N-terminal structure and two catalytic site substitutions and that the 7S complex requires one kallikrein subunit in the zymogen form and one in an active conformation.