A. Patera et al., Crystal structures of substrate and inhibitor complexes with AmpC beta-lactamase: Possible implications for substrate-assisted catalysis, J AM CHEM S, 122(43), 2000, pp. 10504-10512
Group I beta -lactamases are major resistance determinants to beta -lactam
antibiotics. Despite intense study, the identity of the catalytic base, the
direction of hydrolytic attack, and the functional difference between beta
-lactam substrates and beta -lactam inhibitors remain controversial. To ex
plore these questions, we determined the X-ray crystal structures of severa
l representative beta -lactams in their acyl-adduct complexes with the grou
p I beta -lactamase AmpC. A complex with the substrate Ioracarbef and a dea
cylation-deficient mutant enzyme reveals an ordered water molecule that is
consistent with beta -face attack of the catalytic water in group I beta -l
actamases; The ring nitrogen of the substrate is placed to hydrogen-bond wi
th this water in the position it is thought to adopt in the deacylation tra
nsition state. In complexes with the inhibitors cloxacillin and moxalactam,
conformational restrictions displace the equivalent ring nitrogens, steric
ally blocking the formation of the presumed deacylation transition-state st
ructure. In conjunction with earlier studies, these acyl-enzyme structures
suggest that both Tyr150 and the ring nitrogen of the substrate itself stab
ilize the hydrolytic transition state, and that beta -lactam inhibitors of
group I beta -lactamases can act by physically blocking this activation.