A hammerhead ribozyme inhibits the proliferation of an RNA coliphage SP in Escherichia coli

Abstract Ribozymes are potentially powerful tools for the suppression of intracellular gene expression. However, the few reports that exist of their activities in bacteria have described mixed success. Chuat and Galibert (Chuat, J.-C., and Galibert, F. (1989) Biochem. Biophys. Res. Commun. 162, 1025-1029) failed to detect any trans-activities of hammerhead ribozymes in Escherichia coli, while Sioud and Drlica (Sioud, M., and Drlica, K. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 7303-7307) reported complete inhibition of expression of the gene for a nonbacterial protein, HIV-1 integrase, by trans-acting hammerhead ribozymes in E. coli. It is of interest to determine whether ribozymes can really be used in natural bacterial systems (Altman, S. (1993) Proc. Natl. Acad. Sci. U.S.A. 90, 10898-10900). We now report that a ribozyme designed to cleave the A2 gene of RNA coliphage SP, when transcribed from a plasmid in E. coli caused failure of the proliferation of progeny phage. Inactive ribozymes with altered catalytic sequences did not affect phage growth. These results indicate that it is mainly the catalytic activity of the ribozyme and not its function as an antisense molecule that is responsible for suppressing the proliferation of the RNA phage. Moreover, an analysis based on numbers of plaque-forming units and the function of the A2 protein indicated that antisense RNA may successfully compete with ribosomes in targeting mRNA while ribozymes in this study may not compete with ribosomes in naturally occurring bacterial transcription/translation-coupled systems.