Comparison of the specificities and catalytic activities of hammerhead ribozymes and DNA enzymes with respect to the cleavage of BCR-ABL chimeric L6 (b2a2) mRNA.

With the eventual goal of developing a treatment for chronic myelogenous leukemia (CML), attempts have been made to design hammerhead ribozymes that can specifically cleave BCR-ABL fusion mRNA. In the case of L6 BCR-ABL fusion mRNA (b2a2 type; BCR exon 2 is fused to ABL exon 2), which has no effective cleavage sites for conventional hammerhead ribozymes near the BCR-ABL junction, it has proved very difficult to cleave the chimeric mRNA specifically. Several hammerhead ribozymes with relatively long junction-recognition sequences have poor substrate-specificity. Therefore, we explored the possibility of using newly selected DNA enzymes that can cleave RNA molecules with high activity to cleave L6 BCR-ABL fusion (b2a2) mRNA. In contrast to the results with the conventional ribozymes, the newly designed DNA enzymes, having higher flexibility for selection of cleavage sites, were able to cleave this chimeric RNA molecule specifically at sites close to the junction. Cleavage occurred only within the abnormal BCR-ABL mRNA, without any cleavage of the normal ABL or BCR mRNA. Thus, these chemically synthesized DNA enzymes seem to be potentially useful for application in vivo , especially for the treatment of CML, if we can develop exogenous delivery strategies.