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1.
J Am Chem Soc ; 142(11): 5034-5048, 2020 03 18.
Artigo em Inglês | MEDLINE | ID: mdl-32048840

RESUMO

Penicillin binding proteins (PBPs) catalyzing transpeptidation reactions that stabilize the peptidoglycan component of the bacterial cell wall are the targets of ß-lactams, the most clinically successful antibiotics to date. However, PBP-transpeptidation enzymology has evaded detailed analysis, because of the historical unavailability of kinetically competent assays with physiologically relevant substrates and the previously unappreciated contribution of protein cofactors to PBP activity. By re-engineering peptidoglycan synthesis, we have constructed a continuous spectrophotometric assay for transpeptidation of native or near native peptidoglycan precursors and fragments by Escherichia coli PBP1B, allowing us to (a) identify recognition elements of transpeptidase substrates, (b) reveal a novel mechanism of stereochemical editing within peptidoglycan transpeptidation, (c) assess the impact of peptidoglycan substrates on ß-lactam targeting of transpeptidation, and (d) demonstrate that both substrates have to be bound before transpeptidation occurs. The results allow characterization of high molecular weight PBPs as enzymes and not merely the targets of ß-lactam acylation.


Assuntos
Proteínas de Escherichia coli/química , Escherichia coli/enzimologia , Proteínas de Ligação às Penicilinas/química , Peptidoglicano Glicosiltransferase/química , Peptidoglicano/química , Monossacarídeos de Poli-Isoprenil Fosfato/química , Oligossacarídeos de Poli-Isoprenil Fosfato/química , D-Ala-D-Ala Carboxipeptidase Tipo Serina/química , Proteínas da Membrana Bacteriana Externa/química , Biocatálise , Ensaios Enzimáticos/métodos , Cinética , Estereoisomerismo , Especificidade por Substrato
2.
Chem Sci ; 9(47): 8850-8859, 2018 Dec 21.
Artigo em Inglês | MEDLINE | ID: mdl-30627403

RESUMO

Teixobactin is a new promising antibiotic that targets cell wall biosynthesis by binding to lipid II and has no detectable resistance thanks to its unique but yet not fully understood mechanism of operation. To aid in the structure-based design of teixobactin analogues with improved pharmacological properties, we present a 3D structure of native teixobactin in membrane mimetics and characterise its binding to lipid II through a combination of solution NMR and fast (90 kHz) magic angle spinning solid state NMR. In NMR titrations, we observe a pattern strongly suggesting interactions between the backbone of the C-terminal "cage" and the pyrophosphate moiety in lipid II. We find that the N-terminal part of teixobactin does not only act as a membrane anchor, as previously thought, but is actively involved in binding. Moreover, teixobactin forms a well-structured and specific complex with lipid II, where the N-terminal part of teixobactin assumes a ß conformation that is highly prone to aggregation, which likely contributes to the antibiotic's high bactericidal efficiency. Overall, our study provides several new clues to teixobactin's modes of action.

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