Anthony Direnzo

Optimizing the Cell Efficacy of Synthetic Ribozymes SITE SELECTION AND CHEMICAL MODIFICATIONS OF RIBOZYMES TARGETING THE PROTO-ONCOGENE c-myb

Expression of the proto-oncogene c-myb is necessary for proliferation of vascular smooth muscle cells. We have developed synthetic hammerhead ribozymes that recognize and cleave c-myb RNA, thereby inhibiting cell proliferation. Herein, we describe a method for the selection of hammerhead ribozyme cleavage sites and optimization of chemical modifications that maximize cell efficacy. In vitro assays were used to determine the relative accessibility of the ribozyme target sites for binding and cleavage. Several ribozymes thus identified showed efficacy in inhibiting smooth muscle cell proliferation relative to catalytically inactive controls. A combination of modifications including several phosphorothioate linkages at the 5′-end of the ribozyme and an extensively modified catalytic core resulted in substantially increased cell efficacy. A variety of different 2′-modifications at positions U4 and U7 that confer nuclease resistance gave comparable levels of cell efficacy. The lengths of the ribozyme binding arms were varied; optimal cell efficacy was observed with relatively short sequences (13-15 total nucleotides). These synthetic ribozymes have potential as therapeutics for hyperproliferative disorders such as restenosis and cancer. The chemical motifs that give optimal ribozyme activity in smooth muscle cell assays may be applicable to other cell types and other molecular targets.

Synthesis and Incorporation of 5″-Amino- and 5′-Mercapto-5′-Deoxy-2′-O-Methyl Nucleosides Into Hammerhead Ribozymes

Abstract Novel 5′-amino-5′-deoxy-2′-O-methyl uridine, guanosine and adenosine 3′-O-phosphoramidites 5, 11, and 20, as well as protected 5′-mercapto-5′-deoxy-2′-O-methyl uridine 3′-O-phosphoramidite 23 were synthesized from 2′-O-methyl nucleosides. These analogs were incorporated at the 5′-ends of hammerhead ribozymes to evaluate achiral bridging 5′-N- phosphoramidates and 5′-S-phosphorothioates as alternatives for non- bridging phosphorothioates commonly used for end stabilization against nucleases. Oligonucleotide synthesis and deprotection conditions were optimized for better yields of these modified ribozymes.

2′-SUBSTITUTED PHOSPHOROTHIOATE CONTAINING OLIGORIBONUCLEOTIDES: AN APPLICATION TO THE SYNTHESIS AND PURIFICATION OF HAMMERHEAD RIBOZYMES

Abstract A systematic study of the catalytic activity and nuclease stability of selectively modified hammerhead ribozymes has resulted in the identification of a generic motif containing 5 ribose residues and 31 2′- modified sugars (1). This substructure has been further elaborated to include phosphorothioate linkages. Although oligodeoxyribonucleotides containing phosphorothioate linkages have been studied extensively, similarly substituted RNA molecules or ribozymes have not been explored at-length. The synthesis and purification of these ribozymes is discussed (2).