Optimizing the Cell Efficacy of Synthetic Ribozymes

Jarvis, Thale C.; Wincott, Francine E.; Alby, L. J.; McSwiggen, James A.; Beigelman, Leonid; Gustofson, John; DiRenzo, Anthony B.; Levy, Kurt; Arthur, Melissa; Matulić‐Adamić, Jasenka; Karpeisky, Alexander; Gonzalez, C.; Woolf, Tod M.; Usman, Nassim; Stinchcomb, Dan T.

doi:10.1074/jbc.271.46.29107

Cited by 70 publications

(24 citation statements)

References 28 publications

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“…While rapid and simple, sequence scanning has the obvious disadvantage that it ignores the issue of target site accessibility, which can severely limit cleavage efficiency (39). Given funding and personnel sufficient for screening the biological activity of approximately 20 ribozymes, this method has been shown to work (40). Unfortunately, the expense of such a strategy makes this brute force approach impractical in most laboratory settings.…”

Section: ͻ0001mentioning

confidence: 99%

“…However, even these sites may become accessible due to RNA dynamics, alternative folding patterns, or repetitive folding of the RNA in vivo, as during ribosomal transit of a site within a mRNA molecule. Prediction of folded structures of candidate ribozymes is quite certainly useful in avoiding the use of some ribozymes that can misfold into inactive structures (40).…”

Section: Figmentioning

confidence: 99%

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Cleavage of Highly Structured Viral RNA Molecules by Combinatorial Libraries of Hairpin Ribozymes

Qiao

Pecchia

Kingsley

et al. 1998

Journal of Biological Chemistry

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Combinatorial libraries of hairpin ribozymes representing all possible cleavage specificities (>10 5 ) were used to evaluate all ribozyme cleavage sites within a large (4.2-kilobase) and highly structured viral mRNA, the 26 S subgenomic RNA of Sindbis virus. The combinatorial approach simultaneously accounts for target site structure and dynamics, together with ribozyme folding, and the sequences that result in a ribozymesubstrate complex with maximal activity. Primer extension was used to map and rank the relative activities of the ribozyme pool against individual sites and revealed two striking findings. First, only a small fraction of potential recognition sites are effectively cleaved (activityselected sites). Second, nearly all of the most effectively cleaved sites deviated substantially from the established consensus selection rules for the hairpin ribozyme and were not predicted by examining the sequence, or through the use of computer-assisted predictions of RNA secondary structure. In vitro selection methods were used to isolate ribozymes with increased activity against substrates that deviate from the GUC consensus sequence. trans-Acting ribozymes targeting nine of the activity-selected sites were synthesized, together with ribozymes targeting four sites with a perfect match to the cleavage site consensus (sequence-selected sites). Activity-selected ribozymes have much higher cleavage activity against the long, structured RNA molecules than do sequence-selected ribozymes, although the latter are effective in cleaving oligoribonucleotides, as predicted. These results imply that, for Sindbis virus 26 S RNA, designing ribozymes based on matches to the consensus sequence may be an ineffective strategy.Small, trans-acting ribozymes including the hairpin ribozyme and the hammerhead ribozyme function as sequenceselective ribonucleases. Because their sequence specificity can be manipulated in the laboratory, ribozymes hold considerable promise as tools for targeted RNA inactivation within cells and organisms. Numerous potential applications for ribozymes are being actively explored, including the analysis of gene function, and the development of therapeutics for genetic and viral diseases.The hairpin ribozyme is derived from the minus strand of the satellite RNA of tobacco ringspot virus (1, 2) and catalyzes a reversible site-specific RNA cleavage reaction in the presence of Mg 2ϩ to yield products with 5Ј-hydroxyl and 2Ј,3Ј-cyclic phosphate termini (3-4). The ribozyme folds into two domains, termed A and B, which must interact for cleavage to occur (Fig.

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Section: ͻ0001mentioning

confidence: 99%

Section: Figmentioning

confidence: 99%

Cleavage of Highly Structured Viral RNA Molecules by Combinatorial Libraries of Hairpin Ribozymes

Qiao

Pecchia

Kingsley

et al. 1998

Journal of Biological Chemistry

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“…The half-life of a hammerhead ribozyme in serum is less than 0.1 min (33). However, a combination of modifications, including the introduction of several phosphorothioate linkages at the 5Ј-end of the ribozyme, can substantially increase ribozyme stability (34,35). We therefore used hammerhead ribozymes containing extensive phosphorothioate modifications at the 5Ј-and 3Ј-ends, which have been have been shown to confer higher stability in serum than the 5Ј-end modification alone, without reducing the catalytic efficiency of the ribozyme (36).…”

Section: Discussionmentioning

confidence: 99%

Efficient Transfer of Synthetic Ribozymes into Cells Using Hemagglutinating Virus of Japan (HVJ)-Cationic Liposomes

Kitajima

Hanyu

Soejima

et al. 1997

Journal of Biological Chemistry

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We investigated the usefulness of ribozymes in inhibiting the expression of human T-cell leukemia virus type I (HTLV-I) gene. Two hammerhead ribozymes that were against HTLV-I rex (RR) and tax (TR) mRNA were synthesized. Both ribozymes were sequence-specific in the in vitro cleavage analysis of run-off transcripts from tax/rex cDNA. Intracellular activities of the ribozymes were studied in HTLV-I tax cDNA-transfected rat embryonic fibroblasts (Rat/Tax cells), which expressed the Tax but not Rex. Ribozymes were delivered into cells using anionic or cationic liposomes fused with hemagglutinating virus of Japan (HVJ). Cellular uptake of ribozymes complexed with HVJ-cationic liposomes was 15-20 times higher cellular uptake than naked ribozymes, and 4 -5 times higher than that of ribozymes complexed with HVJ-anionic liposomes. HVJ-cationic liposomes promoted accumulation of ribozymes in cytoplasm and accelerated transport to the nucleus. Tax protein levels were decreased about 95% and were five times lower when the same amount of TR was introduced into the cells using HVJ-cationic, rather than HVJ-anionic liposomes. Inactive ribozyme and tax antisense oligodeoxynucleotides reduced Tax expression by about 20%, whereas RR and tax sense oligodeoxynucleotides had no effect. These results suggest that the ribozymes' effect against tax mRNA was sequence-specific, and HVJ-cationic liposomes can be useful for intracellular introduction of ribozymes.

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“…Indeed, some groups have argued that inhibition is due to the presence of four contiguous guanosine residues in the oligonucleotide sequence employed and that such`G-quartets' allow for base stacking and tetraplex formation which non-speci®cally inhibits cell growth (Burgess et al, 1995;Castier et al, 1998). Regardless, the physiologic role of myb in regulating cell proliferation in this context seems certain (Brown et al, 1992;Kypreos et al, 1998;Simons et al, 1993Simons et al, , 1995 and myb targeted ribozymes have also resulted in sequence-speci®c inhibition of intimal cell proliferation (Jarvis et al, 1996). For these reasons, e cient targeting of c-myb in vascular tissue may yet prove to be a useful therapeutic maneuver.…”

Section: Targeting Myb For Treatment Of Cardiovascular Diseasementioning

confidence: 99%

Myb targeted therapeutics for the treatment of human malignancies

Gewirtz

1999

Oncogene

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Optimizing the Cell Efficacy of Synthetic Ribozymes

Cited by 70 publications

References 28 publications

Cleavage of Highly Structured Viral RNA Molecules by Combinatorial Libraries of Hairpin Ribozymes

Cleavage of Highly Structured Viral RNA Molecules by Combinatorial Libraries of Hairpin Ribozymes

Efficient Transfer of Synthetic Ribozymes into Cells Using Hemagglutinating Virus of Japan (HVJ)-Cationic Liposomes

Myb targeted therapeutics for the treatment of human malignancies

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