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  • Title: Importance of position 170 in the inhibition of GES-type β-lactamases by clavulanic acid.
    Author: Frase H, Toth M, Champion MM, Antunes NT, Vakulenko SB.
    Journal: Antimicrob Agents Chemother; 2011 Apr; 55(4):1556-62. PubMed ID: 21220532.
    Abstract:
    Bacterial resistance to β-lactam antibiotics (penicillins, cephalosporins, carbapenems, etc.) is commonly the result of the production of β-lactamases. The emergence of β-lactamases capable of turning over carbapenem antibiotics is of great concern, since these are often considered the last resort antibiotics in the treatment of life-threatening infections. β-Lactamases of the GES family are extended-spectrum enzymes that include members that have acquired carbapenemase activity through a single amino acid substitution at position 170. We investigated inhibition of the GES-1, -2, and -5 β-lactamases by the clinically important β-lactamase inhibitor clavulanic acid. While GES-1 and -5 are susceptible to inhibition by clavulanic acid, GES-2 shows the greatest susceptibility. This is the only variant to possess the canonical asparagine at position 170. The enzyme with asparagine, as opposed to glycine (GES-1) or serine (GES-5), then leads to a higher affinity for clavulanic acid (K(i) = 5 μM), a higher rate constant for inhibition, and a lower partition ratio (r ≈ 20). Asparagine at position 170 also results in the formation of stable complexes, such as a cross-linked species and a hydrated aldehyde. In contrast, serine at position 170 leads to formation of a long-lived trans-enamine species. These studies provide new insight into the importance of the residue at position 170 in determining the susceptibility of GES enzymes to clavulanic acid.
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