4'-O-substitutions determine selectivity of aminoglycoside antibiotics

Clinical use of 2-deoxystreptamine aminoglycoside antibiotics, which target the bacterial ribosome, is compromised by adverse effects related to limited drug selectivity. Here we present a series of 4′,6′-O-acetal and 4′-O-ether modifications on glucopyranosyl ring I of aminoglycosides. Chemical modifications were guided by measuring interactions between the compounds synthesized and ribosomes harbouring single point mutations in the drug-binding site, resulting in aminoglycosides that interact poorly with the drug-binding pocket of eukaryotic mitochondrial or cytosolic ribosomes. Yet, these compounds largely retain their inhibitory activity for bacterial ribosomes and show antibacterial activity. Our data indicate that 4′-O-substituted aminoglycosides possess increased selectivity towards bacterial ribosomes and little activity for any of the human drug-binding pockets.
Aminoglycoside antibiotics target the ribosome but their limited selectivity for the bacterial ribosome can cause side effects in humans. Here, the authors synthesize 4′-O-ether or 4′,6′-O-acetal modifications and show that these compounds possess increased selectivity against bacterial ribosomes.