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Synthesis and Antiribosomal Activities of 4′-<i>O</i>-, 6′-<i>O</i>-, 4″-<i>O</i>-, 4′,6′-<i>O</i>- and 4″,6″-<i>O</i>-Derivatives in the Kanamycin Series Indicate Differing Target Selectivity Patterns between the 4,5- and 4,6-Series of Disubstituted 2-Deoxystreptamine Aminoglycoside Antibiotics
15
Citations
45
References
2015
Year
Antibacterial ActivityAntimicrobial ChemotherapyPharmaceutical ChemistryDrug ResistanceMedicinal ChemistryAntiribosomal ActivitiesAntibacterial MechanismsKanamycin BAntimicrobial Drug DiscoveryBiochemistryKanamycin ClassAntimicrobial PharmacokineticsAntimicrobial CompoundPharmacologyBiomolecular EngineeringNatural SciencesAntimicrobial PharmacodynamicsMedicineSynthetic ChemistryDrug Discovery
Chemistry for the efficient modification of the kanamycin class of 4,6-aminoglycosides at the 4'-position is presented. In all kanamycins but kanamycin B, 4'-O-alkylation is strongly detrimental to antiribosomal and antibacterial activity. Ethylation of kanamycin B at the 4″-position entails little loss of antiribosomal and antibacterial activity, but no increase of ribosomal selectivity. These results are contrasted with those for the 4,5-aminoglycosides, where 4'-O-alkylation of paromomycin causes only a minimal loss of activity but results in a significant increase in selectivity with a concomitant loss of ototoxicity.
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