Various effects of paromomycin on tmRNA-directed trans-translation

trans-Translation is an unusual translation in which tmRNA plays a dual function as a tRNA and an mRNA to relieve the stalled translation on the ribosome. In this study, we examined the effects of an aminoglycoside antibiotic, paromomycin, on several tmRNA-related events in vitro. The results of a chemical footprinting study indicated that paromomycin molecules bind tmRNA at G(332)/G(333) in the tRNA domain and A(316) in the middle of the long helix between tRNA and mRNA domains. Paromomycin bound at G(332)/G(333) inhibited aminoacylation, and the inhibition was suppressed by the addition of SmpB, a tmRNA-binding protein. It was also found that paromomycin causes a shift of the translation resuming point on tmRNA by -1. The effect on initiation shift was canceled by a mutation at the paromomycin-binding site in 16 S rRNA but not by mutations in tmRNA. A high concentration of paromomycin inhibited trans-translation, whereas it enhanced the initiation-shifted trans-translation when SmpB was exogenously added or a mutation was introduced at 333. The effect of paromomycin on trans-translation differs substantially from that on canonical translation, in which it induces miscoding by modulating the A site of the decoding helix of the small subunit RNA of the ribosome.