Spermine supports catalysis of hairpin ribozyme variants to differing extents.

Because of the ability to cleave RNA substrates in trans, the hairpin ribozyme has great potential for therapeutic application. Activity of a three-stranded version of the minimal truncated form is enhanced by the presence of the polyamine spermine. Since spermine is the most abundant polyamine in eucariots, improved prospects for the hairpin ribozyme as therapeutic agent were predicted. We have found that not all hairpin ribozyme variants accept spermine equally well as counter-ion. Particularly the two-stranded versions commonly used for therapeutic studies show rather decreased activity when spermine is present. We have investigated a number of hairpin ribozyme derivatives regarding their ability to carry out spermine supported catalysis. Among the studied structures a two-stranded reverse-joined hairpin ribozyme displayed the highest cleavage rates in a synergistic mixture of magnesium ions and spermine. The specific features of this ribozyme along with its potential for in vivo application are discussed.