Capreomycin and hygromycin B modulate the catalytic activity of the delta ribozyme in a manner that depends on the protonation and complexation with Cu2+ ions of these antibiotics

“…At higher anti- biotic concentrations, 0.8 and 1 mM, the cleavage reaction was inhibited. 24 The impact of the Cu(II)-viomycin complex on the delta ribozyme was similar to that observed with Cu(II)-capreomycin. A slight inhibition of ribozyme catalysis occurred in the presence of a 0.05 mM Cu(II)-viomycin complex (Fig.…”

“…The established dependence differs from that determined previously for another peptide antibioticcapreomycin. 24 In that case the cleavage reaction was stimulated at the antibiotic concentration in the range of 0.2 to 0.75 mM with the highest stimulation occurring at 0.4 mM capreomycin. At higher anti- biotic concentrations, 0.8 and 1 mM, the cleavage reaction was inhibited.…”

“…13). Most importantly, the Cu(II)capreomycin complex at pH 5.5 and 6.5 inhibits the ribozyme cleavage almost completely, 24 while the Cu(II)-viomycin complex has no impact on the reaction under these conditions. Besides, at pH 7.5, viomycin stimulates catalysis twofold better than capreomycin.…”

“…15 The results were extremely useful for explaining the impact of capreomycin and its complex on the catalytic activity of the delta ribozyme and for evaluating the possible mechanisms of modulation of ribozyme activity. 24 In this report we describe the results of comprehensive studies of viomycin, which is structurally related to capreomycin. We attempted to determine copper(II) coordination properties of this drug, its DNA degradation abilities, and the impact on delta ribozyme cleavage activity.…”

Studies of viomycin, an anti-tuberculosis antibiotic: copper(ii) coordination, DNA degradation and the impact on delta ribozyme cleavage activity

“…At higher anti- biotic concentrations, 0.8 and 1 mM, the cleavage reaction was inhibited. 24 The impact of the Cu(II)-viomycin complex on the delta ribozyme was similar to that observed with Cu(II)-capreomycin. A slight inhibition of ribozyme catalysis occurred in the presence of a 0.05 mM Cu(II)-viomycin complex (Fig.…”

“…The established dependence differs from that determined previously for another peptide antibioticcapreomycin. 24 In that case the cleavage reaction was stimulated at the antibiotic concentration in the range of 0.2 to 0.75 mM with the highest stimulation occurring at 0.4 mM capreomycin. At higher anti- biotic concentrations, 0.8 and 1 mM, the cleavage reaction was inhibited.…”

“…13). Most importantly, the Cu(II)capreomycin complex at pH 5.5 and 6.5 inhibits the ribozyme cleavage almost completely, 24 while the Cu(II)-viomycin complex has no impact on the reaction under these conditions. Besides, at pH 7.5, viomycin stimulates catalysis twofold better than capreomycin.…”

“…15 The results were extremely useful for explaining the impact of capreomycin and its complex on the catalytic activity of the delta ribozyme and for evaluating the possible mechanisms of modulation of ribozyme activity. 24 In this report we describe the results of comprehensive studies of viomycin, which is structurally related to capreomycin. We attempted to determine copper(II) coordination properties of this drug, its DNA degradation abilities, and the impact on delta ribozyme cleavage activity.…”

Studies of viomycin, an anti-tuberculosis antibiotic: copper(ii) coordination, DNA degradation and the impact on delta ribozyme cleavage activity

“…Previously, several factors have been suggested that affect the delta ribozyme cleavage reaction by antibiotics, such as the displacement of the catalytic Mg 2+ , an impact on the catalytic cleavage reaction trajectory, and the protonation state of antibiotics or their complexation with Cu 2+ ions . In this study, we showed that some antibiotics and their Cu 2+ complexes inhibiting the delta ribozyme could bind to its different regions or bind in different ways.…”

Mapping the interactions of selected antibiotics and their Cu²⁺ complexes with the antigenomic delta ribozyme

Peptides having antimicrobial activity and their complexes with transition metal ions