Kinjal Dave scite author profile

Bacterial dd-peptidases are the targets of the β-lactam antibiotics. The sharp increase in bacterial resistance toward these antibiotics in recent years has stimulated the search for non-β-lactam alternatives. The substrates of dd-peptidases are elements of peptidoglycan from bacterial cell walls. Attempts to base dd-peptidase inhibitor design on peptidoglycan structure, however, have not been particularly successful to date because the specific substrates for most of these enzymes are unknown. It is known, however, that the preferred substrates of low-molecular mass (LMM) class B and C dd-peptidases contain the free N-terminus of the relevant peptidoglycan. Two very similar LMMC enzymes, for example, the Actinomadura R39 dd-peptidase and Bacillus subtilis PBP4a, recognize a d-α-aminopimelyl terminus. The peptidoglycan of B. subtilis in the vegetative stage, however, has the N-terminal d-α-aminopimelyl carboxylic acid amidated. The question is, therefore, whether the dd-peptidases of B. subtilis are separately specific to carboxylate or carboxamide or have dual specificity. This paper describes an investigation of this issue with B. subtilis PBP4a. This enzyme was indeed found to have a dual specificity for peptide substrates, both in the acyl donor and in the acyl acceptor sites. In contrast, the R39 dd-peptidase, from an organism in which the peptidoglycan is not amidated, has a strong preference for a terminal carboxylate. It was also found that acyl acceptors, reacting with acyl-enzyme intermediates, were preferentially d-amino acid amides for PBP4a and the corresponding amino acids for the R39 dd-peptidase. Examination of the relevant crystal structures, aided by molecular modeling, suggested that the expansion of specificity in PBP4a accompanies a change of Arg351 in the R39 enzyme and most LMMC dd-peptidases to histidine in PBP4a and its orthologs in other Bacillus sp. This histidine, in neutral form at pH 7, appeared to be able to favorably interact with both carboxylate and carboxamide termini of substrates, in agreement with the kinetic data. It may still be possible, in specific cases, to combat bacteria with new antibiotics based on particular elements of their peptidoglycan structure.

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Neutral β-Lactams Inactivate High Molecular Mass Penicillin-Binding Proteins of Class B1, Including PBP2a of MRSA

Dave

Palzkill

Pratt

2013

ACS Med. Chem. Lett.

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The targets of β-lactam antibiotics are bacterial DD-peptidases (penicillin-binding proteins). β-Lactam SAR studies over many years have demonstrated the importance of a specifically placed negative charge, usually carboxylate, on these molecules. We show here that neutral analogues of classical β-lactam antibiotics are of comparable activity to the originals against β-lactam-resistant high molecular mass DDpeptidases of the B1 class, a group that includes PBP2a of methicillin-resistant Staphylococcus aureus. These neutral β-lactams may direct new development of antibiotics against certain penicillin-resistant bacteria. These molecules do have antibiotic activity against Gram-positive bacteria.

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Specificity of extended O-aryloxycarbonyl hydroxamates as inhibitors of a class C β-lactamase

Malico

Dave

Adediran

et al. 2019

Bioorganic & Medicinal Chemistry

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ChemInform Abstract: Synthesis and Biological Activity of Pyrido(3′,2′:4,5)thieno(3,2‐d)pyrimidines.

Dave

Shah

et al. 1990

ChemInform

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Methods to Unravel the Roles of ATPases in Fe-S Cluster Biosynthesis

Molé

Dave

Perlstein

2021

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Kinjal Dave

Dual Substrate Specificity of Bacillus subtilis PBP4a

Neutral β-Lactams Inactivate High Molecular Mass Penicillin-Binding Proteins of Class B1, Including PBP2a of MRSA

Specificity of extended O-aryloxycarbonyl hydroxamates as inhibitors of a class C β-lactamase

ChemInform Abstract: Synthesis and Biological Activity of Pyrido(3′,2′:4,5)thieno(3,2‐d)pyrimidines.

Methods to Unravel the Roles of ATPases in Fe-S Cluster Biosynthesis

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