Specific Binding of Aminoglycosides to a Human rRNA Construct Based on a DNA Polymorphism Which Causes Aminoglycoside-Induced Deafness

Abstract

RNA constructs prepared from wild-type and mutant (1555^G) human mitochondrial 12S RNA were studied with respect to their abilities to specifically bind aminoglycoside antibiotics. The 1555^G point mutation had previously been found to be associated with hereditary deafness induced by aminoglycosides. It is shown here that the 1555^G RNA analog stoichiometrically binds aminoglycosides with high affinities, while the wild-type construct does not bind aminoglycosides at all. Analogous mutations in a 16S bacterial rRNA construct show the opposite behavior. Bacterial 16S rRNA constitutes the functional target for aminoglycoside antibiotics. While the wild-type 16S rRNA decoding region construct binds aminoglycosides stoichiometrically with binding affinities in the micromolar range, the mutant is unable to specifically bind aminoglycosides. These results demonstrate the importance of a specific GC base pair in aminoglycoside binding in both the human and the bacterial rRNA constructs. These studies also provide quantitative evidence in support of the hypothesis that the 1555^G point mutation in human mitochondrial 12S RNA causes aminoglycoside induced deafness.