TY - JOUR
T1 - Crystal structure of a preacylation complex of the β-lactamase inhibitor sulbactam bound to a sulfenamide bond-containing thiol-β- lactamase
AU - Rodkey, Elizabeth A.
AU - Drawz, Sarah M.
AU - Sampson, Jared M.
AU - Bethel, Christopher R.
AU - Bonomo, Robert A.
AU - Van Den Akker, Focco
PY - 2012/10/10
Y1 - 2012/10/10
N2 - The rise of inhibitor-resistant and other β-lactamase variants is generating an interest in developing new β-lactamase inhibitors to complement currently available antibiotics. To gain insight into the chemistry of inhibitor recognition, we determined the crystal structure of the inhibitor preacylation complex of sulbactam, a clinical β-lactamase inhibitor, bound in the active site of the S70C variant of SHV-1 β-lactamase, a resistance enzyme that is normally present in Klebsiella pneumoniae. The S70C mutation was designed to affect the reactivity of that catalytic residue to allow for capture of the preacylation complex. Unexpectedly, the 1.45 Å resolution inhibitor complex structure revealed that residue C70 is involved in a sulfenamide bond with K73. Such a covalent bond is not present in the wild-type SHV-1 or in an apo S70C structure also determined in this study. This bond likely contributed significantly to obtaining the preacylation complex with sulbactam due to further decreased reactivity toward substrates. The intact sulbactam is positioned in the active site such that its carboxyl moiety interacts with R244, S130, and T235 and its carbonyl moiety is situated in the oxyanion hole. To our knowledge, in addition to being the first preacylation inhibitor β-lactamase complex, this is also the first observation of a sulfenamide bond between a cysteine and lysine in an active site. Not only could our results aid, therefore, structure-based inhibitor design efforts in class A β-lactamases, but the sulfenamide-bond forming approach to yield preacylation complexes could also be applied to other classes of β-lactamases and penicillin-binding proteins with the SXXK motif.
AB - The rise of inhibitor-resistant and other β-lactamase variants is generating an interest in developing new β-lactamase inhibitors to complement currently available antibiotics. To gain insight into the chemistry of inhibitor recognition, we determined the crystal structure of the inhibitor preacylation complex of sulbactam, a clinical β-lactamase inhibitor, bound in the active site of the S70C variant of SHV-1 β-lactamase, a resistance enzyme that is normally present in Klebsiella pneumoniae. The S70C mutation was designed to affect the reactivity of that catalytic residue to allow for capture of the preacylation complex. Unexpectedly, the 1.45 Å resolution inhibitor complex structure revealed that residue C70 is involved in a sulfenamide bond with K73. Such a covalent bond is not present in the wild-type SHV-1 or in an apo S70C structure also determined in this study. This bond likely contributed significantly to obtaining the preacylation complex with sulbactam due to further decreased reactivity toward substrates. The intact sulbactam is positioned in the active site such that its carboxyl moiety interacts with R244, S130, and T235 and its carbonyl moiety is situated in the oxyanion hole. To our knowledge, in addition to being the first preacylation inhibitor β-lactamase complex, this is also the first observation of a sulfenamide bond between a cysteine and lysine in an active site. Not only could our results aid, therefore, structure-based inhibitor design efforts in class A β-lactamases, but the sulfenamide-bond forming approach to yield preacylation complexes could also be applied to other classes of β-lactamases and penicillin-binding proteins with the SXXK motif.
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U2 - 10.1021/ja3073676
DO - 10.1021/ja3073676
M3 - Article
C2 - 22974281
AN - SCOPUS:84867339853
SN - 0002-7863
VL - 134
SP - 16798
EP - 16804
JO - Journal of the American Chemical Society
JF - Journal of the American Chemical Society
IS - 40
ER -