Structure-activity Relationships for Six Ketolide Antibiotics

Overview

Journal Curr Microbiol

Specialty Microbiology

Date 2001 Mar 29

PMID 11270656

Citations 12

Authors

W S Champney

C L Tober

Affiliations

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Abstract

Six structurally related 3-keto-substituted macrolide antibiotics (ketolides) were compared for concentration-dependent inhibitory effects on growth rate, viable cell number, and protein synthesis rates in Staphylococcus aureus cells. Inhibitory effects on 50S ribosomal subunit formation were also examined, as this is a second target for these antibiotics. A concentration range of 0.01 to 0.1 microg/ml was tested. An IC50 for inhibition of translation and 50S synthesis was measured for each compound, to relate structural features to inhibitory activity. ABT-773 was the most effective of the six compounds tested with an IC50 = 0.035 microg/ml. HMR 3004 was almost as effective with an IC50 = 0.05 microg/ml. Two 2-fluoroketolides (HMR 3562 and HMR 3787) were equivalent in their inhibitory activity with an IC50 = 0.06 microg/ml. Telithromycin (HMR 3647) had an IC50 = 0.08 microg/ml, and HMR 3832 was least effective with an IC50 = 0.11 microg/ml. Each antibiotic had an equivalent inhibitory effect on translation and 50S subunit formation. These results indicate specific structural features of these antimicrobial agents, which contribute to defined inhibitory activities against susceptible organisms.

Citing Articles

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Wang C, Zhao F, Zhang L, Chai X, Meng Q Molecules. 2017; 22(12).

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Zheng Z, Du D, Cao L, Liu J, Chen X J Antibiot (Tokyo). 2016; 69(11):811-817.

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Impact of ribosomal modification on the binding of the antibiotic telithromycin using a combined grand canonical monte carlo/molecular dynamics simulation approach.

Small M, Lopes P, Andrade R, MacKerell Jr A PLoS Comput Biol. 2013; 9(6):e1003113.

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Solithromycin inhibition of protein synthesis and ribosome biogenesis in Staphylococcus aureus, Streptococcus pneumoniae, and Haemophilus influenzae.

Rodgers W, Frazier A, Champney W Antimicrob Agents Chemother. 2013; 57(4):1632-7.

PMID: 23318809 PMC: 3623315. DOI: 10.1128/AAC.02316-12.