Molecular evolution of bacterial β-lactam resistance Original Research Article

Background: Two groups of penicillin-destroying enzymes, the class A and class C β-lactamases, may have evolved from bacterial transpeptidases that transfer x-d-Ala-d-Ala peptides to the growing peptidoglycan during cell wall synthesis. Both the transpeptidases and the β-lactamases are acylated by β-lactam antibiotics such as penicillin, which mimic the peptide, but breakdown and removal of the antibiotic is much faster in the β-lactamases, which lack the ability to process d-Ala-d-Ala peptides. Stereochemical factors driving this evolution in specificity are examined. Results: We have compared the crystal structures of two classes of β-lactamases and a β-lactam-sensitive d-alanyl-d-alanine-carboxypeptidase/transpeptidase (DD-peptidase). The class C β-lactamase is more similar to the DD-peptidase than to another β-lactamase of class A. Conclusions: The two classes of β-lactamases appear to have developed from an ancestral protein along separate evolutionary paths. Structural differentiation of the β-lactamases from the DD-peptidases appears to follow differences in substrate shapes. The structure of the class A β-lactamase has been further optimized to exclude d-alanyl peptides and process penicillin substrates with near catalytic perfection. Keywords: drug resistance, enzymology, penicillin antibiotics, protein ancestry Received: 7 October 1996