M Bandera scite author profile

Vancomycin resistance in enterococci is an emerging therapeutic problem. Resistance is not always detected by standard microbiological methods. Oligonucleotide primers for PCR were designed to target amplification of defined regions of genes of the vanA cluster, as well as vanB and vanC1. These primers correctly identified 30 vancomycin-resistant isolates tested (17 VanA, 7 VanB, and 6 Enterococcus gallinarum). No amplification was observed with Enterococcus casseliflavus or vancomycin-susceptible strains. Using PCR and Southern blotting, we found that all 17 VanA isolates had orf-1, orf-2, vanR, vanS, vanH, vanA, and vanY genes in the same sequence and that the intergenic distances in the vanR-vanA segments were the same. The described methods should be applicable to the rapid detection of the different vancomycin resistance genotypes in enterococci.

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Increased hydrophobic interactions of iclaprim with Staphylococcus aureus dihydrofolate reductase are responsible for the increase in affinity and antibacterial activity

Oefner¹,

Bandera²,

Haldimann³

et al. 2009

Journal of Antimicrobial Chemotherapy

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Iclaprim binds and inhibits bacterial DHFR in a similar manner to trimethoprim. However, the increased hydrophobic interactions between iclaprim and DHFR account for increased affinity and, unlike trimethoprim, enable iclaprim to inhibit even the resistant enzyme with nanomolar affinity, thus overcoming the mechanism of trimethoprim resistance. The increased antibacterial activity and lower propensity for resistance make iclaprim a clinically promising and useful inhibitor.

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Inhibition of bacterial protein synthesis by elongation-factor-Tu-binding antibiotics MDL 62,879 and efrotomycin

Landini¹,

Bandera²,

Goldstein³

et al. 1992

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MDL 62,879 (formerly GE 2270 A) is a novel antibiotic active against Gram-positive bacteria by inhibiting protein synthesis. MDL 62,879 is not active against Gram-negative bacteria, but inhibits cell-free protein synthesis in extracts from Escherichia coli, and shows a high binding affinity for its elongation factor Tu (EF-Tu). We prepared ribosomes and protein-synthesis elongation factors from three sources: E. coli, Bacillus subtilis, and a strain of B. subtilis selected for resistance to MDL 62,879 (strain G1674). Homologous and heterologous reconstituted systems were used to compare the effects of MDL 62,879 and of efrotomycin, an EF-Tu inhibitor of the kirromycin class, which is inactive against both B. subtilis and E. coli. We showed that in cell-free protein synthesis: (a) E. coli was sensitive to both MDL 62,879 and efrotomycin; (b) B. subtilis was sensitive to MDL 62,879, but not to efrotomycin; (c) B. subtilis G1674 was resistant to both antibiotics. In the E. coli system and in the system from wild-type B. subtilis, inhibition by MDL 62,879 was reversed upon addition of purified EF-Tu from B. subtilis G1674. This demonstrates that the antibiotic acts by inhibition of EF-Tu. In contrast, extracts from B. subtilis failed to restore activity in an efrotomycin-inhibited E. coli system. Dominance or resistance to MDL 62,879 and of sensitivity to efrotomycin in heterologous cell-free protein synthesis confirms that inhibition of EF-Tu by the two antibiotics is mediated by different mechanisms of action.

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Sensitivity of elongation factor Tu (EF-Tu) from different bacterial species to the antibiotics efrotomycin, pulvomycin and MDL 62879

Landini¹,

Bandera²,

Soffientini³

et al. 1993

Journal of General Microbiology

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The sensitivity of elongation factor Tu (EF-Tu) from different species of bacteria to the EF-Tu-binding antibiotics efrotomycin, pulvomycin and MDL 62879 was tested by measuring the effect of these antibiotics on cell-free protein synthesis systems. EF-Tu from four different Gram-negative species was sensitive to all three antibiotics. Among Gram-positive bacteria, EF-Tu of Baciiius subtiiis, Staphylococcus aureus and Enterococcus faecaiis was resistant to efrotomycin and less sensitive to pulvomycin than EF-Tu of Gram-negative bacteria. EF-Tus from streptococci were significantly less sensitive than EF-Tus from Gram-negative bacteria to both efrotomycin and pulvomycin. All of the EF-Tus were sensitive to MDL 62879. The same sensitivity pattern emerged from GDP exchange assays, performed with partially purified EF-Tu from different bacterial species and pure Escherichia coli EF-Ts. These results suggest that the site of action of MDL 62879 is more conserved among bacterial species than those of efrotomycin and pulvomycin. Heterogeneity of EF-Tus from different bacterial species was also reflected in differences in their apparent molecular masses estimated by SDS-PAGE. EF-Tus from the Gram-positive species had higher molecular masses than those from all but one of the Gram-negative species.

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Differential susceptibilities of enterococcal species to elfamycin antibiotics

Miele¹,

Goldstein²,

Bandera³

et al. 1994

J Clin Microbiol

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The elfamycins are a class of naturally occurring antibiotics not currently used in the therapy of human disease. Enterococcus faecium and closely related species (Enterococcus durans and Enterococcus hirae) are susceptible to these antibiotics, while isolates of Enterococcusfaecalis and other enterococcal species are highly resistant. Among enterococci, susceptibility or resistance to elfamycins appears to be determined by the bacterial protein synthesis elongation factor EF-Tu. Elfamycin susceptibility may be a useful adjunct for rapidly distinguishing E. faecalis and E. faecium in the clinical microbiology laboratory and/or as a supplementary test for use in determining the species of enterococci.

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M Bandera

Use of primers selective for vancomycin resistance genes to determine van genotype in enterococci and to study gene organization in VanA isolates

Increased hydrophobic interactions of iclaprim with Staphylococcus aureus dihydrofolate reductase are responsible for the increase in affinity and antibacterial activity

Inhibition of bacterial protein synthesis by elongation-factor-Tu-binding antibiotics MDL 62,879 and efrotomycin

Sensitivity of elongation factor Tu (EF-Tu) from different bacterial species to the antibiotics efrotomycin, pulvomycin and MDL 62879

Differential susceptibilities of enterococcal species to elfamycin antibiotics

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