Emer K. Phelan scite author profile

Antibiotic resistance is one of the most significant challenges facing global healthcare. Since the 1940s, antibiotics have been used to fight infections, initially with penicillin and subsequently with various derivatives including cephalosporins, carbapenams and monobactams. A common characteristic of these antibiotics is the four-membered β-lactam ring. Alarmingly, in recent years an increasing number of bacteria have become resistant to these antibiotics. A major strategy employed by these pathogens is to use Zn(II)-dependent enzymes, the metallo-β-lactamases (MBLs), which hydrolyse the β-lactam ring. Clinically useful MBL inhibitors are not yet available. Consequently, MBLs remain a major threat to human health. In this review biochemical properties of MBLs are discussed, focusing in particular on the interactions between the enzymes and the functionally essential metal ions. The precise role(s) of these metal ions is still debated and may differ between different MBLs. However, since they are required for catalysis, their binding site may present an alternative target for inhibitor design.

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Identification and characterization of an unusual metallo-β-lactamase from Serratia proteamaculans

Vella

Miraula

Phelan

et al. 2013

J Biol Inorg Chem

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Metallo-β-lactamases (MBLs) are a family of metalloenzymes that are capable of hydrolyzing β-lactam antibiotics and are an important means by which bacterial pathogens use to inactivate antibiotics. A database search of the available amino acid sequences from Serratia proteamaculans indicates the presence of an unusual MBL. A full length amino acid sequence alignment indicates overall homology to B3-type MBLs, but also suggests considerable variations in the active site, notably among residues that are relevant to metal ion binding. Steady-state kinetic measurements further indicate functional differences and identify two relevant pK a values for catalysis (3.8 for the enzyme-substrate complex and 7.8 for the free enzyme) and a preference for penams with modest reactivity towards some cephalosporins. An analysis of the metal ion content indicates the presence of only one zinc ion per active site in the resting enzyme. In contrast, kinetic data suggest that the enzyme may operate as a binuclear enzyme, and it is thus proposed that a catalytically active di-Zn(2+) center is formed only once the substrate is present.

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Unusual metallo-<i>β</i>-lactamases may constitute a new subgroup in this family of enzymes

Hou¹,

Phelan²,

Miraula³

et al. 2014

AJMB

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Metallo-β-lactamases (MBLs) are a family of Zn2+ -dependent enzymes that have contributed strongly to the emergence and spread of antibiotic resistance. Novel members as well as variants of existing members of this family are discovered continuously, compounding their threat to global health care. MBLs are divided into three subgroups, i.e. B1, B2 and B3. The recent discovery of an unusual MBL from Serratia proteamaculans (SPR-1) suggests the presence of an additional subgroup, i.e. B4. A database search reveals that SPR-1 has only one homologue from Cronobacter sakazakii, CSA-1.These two MBLs have a unique active site and may employ a mechanism distinct from other MBLs, but reminiscent of some organophosphate-degrading hydrolases.

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Emer K. Phelan

Metallo-β-Lactamases: A Major Threat to Human Health

Identification and characterization of an unusual metallo-β-lactamase from Serratia proteamaculans

Unusual metallo-<i>β</i>-lactamases may constitute a new subgroup in this family of enzymes

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Emer K. Phelan

Metallo-β-Lactamases: A Major Threat to Human Health

Identification and characterization of an unusual metallo-β-lactamase from Serratia proteamaculans

Unusual metallo-&lt;i&gt;β&lt;/i&gt;-lactamases may constitute a new subgroup in this family of enzymes

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Unusual metallo-<i>β</i>-lactamases may constitute a new subgroup in this family of enzymes