Rational Design of a β-Lactamase Inhibitor Achieved via Stabilization of the trans-Enamine Intermediate: 1.28 A Crystal Structure of wt SHV-1 Complex with a Penam Sulfone

摘要

β-Lactamases are one of the major causes of antibiotic resistance in Gram negative bacteria. The continuing evolution of β-lactamases that are capable of hydrolyzing our most potent β-lactams presents a vexing clinical problem, in particular since a number of them are resistant to inhibitors. The efficient inhibition of these enzymes is therefore of great clinical importance. Building upon our previous structural studies that examined tazobactam trapped as a trans-enamine intermediate in a deacylation deficient SHV variant, we designed a novel penam sulfone derivative that forms a more stable frans-enamine intermediate. We report here the 1.28 A resolution crystal structure of wt SHV-1 in complex with a rationally designed penam sulfone, SA2-13. The compound is covalently bound to the active site of wt SHV-1 similar to tazobactam yet forms an additional salt-bridge with K234 and hydrogen bonds with S130 and T235 to stabilize the frans-enamine intermediate. Kinetic measurements show that SA2-13, once reacted with SHV-1 β-lactamase, is about 10-fold slower at being released from the enzyme compared to tazobactam. Stabilizing the frans-enamine intermediate represents a novel strategy for the rational design of mechanism-based class A β-lactamase inhibitors.