Abstract

Viomycin is a basic peptide antibiotic, which is among the most effective agents against multidrug-resistant tuberculosis. In this paper we provide the characteristics of its acid base properties, coordination preferences towards the Cu(ii) ions, as well as the reactivity of the resulting complexes against plasmid DNA and HDV ribozyme. Careful coordination studies throughout the wide pH range allow for the characterisation of all the Cu(ii)-viomycin complex species. The assignment of proton chemical shifts was achieved by NMR experiments, while the DTF level of theory was applied to support molecular structures of the studied complexes. The experiments with the plasmid DNA reveal that at the physiological levels of hydrogen peroxide the Cu(ii)-viomycin complex is more aggressive against DNA than uncomplexed metal ions. Moreover, the degradation of DNA by viomycin can be carried out without the presence of transition metal ions. In the studies of antigenomic delta ribozyme catalytic activity, viomycin and its complex are shown to modulate the ribozyme functioning. The molecular modelling approach allows the indication of two different locations of viomycin binding sites to the ribozyme.

Highlights

  • Tuberculosis is a serious global health problem caused by the bacillus Mycobacterium tuberculosis,[1] associated with the human population since antiquity.[2]

  • According to the World Health Organization (WHO) report, this infection has reached every corner of the globe

  • Our observations show that the degradation of DNA by viomycin occurs with a relatively low specificity and can be carried out without the presence of transition metal ions

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Summary

Introduction

Tuberculosis is a serious global health problem caused by the bacillus Mycobacterium tuberculosis,[1] associated with the human population since antiquity.[2]. As a result of the differences in pKa values of the anchoring amino groups between the two structurally familiar tuberactinomycins, viomycin coordinates Cu(II) ions at a slightly higher pH value compared to capreomycin.[15] Under the most acidic conditions, first a CuL complex is formed (Fig. 2).

Results
Conclusion

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