Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.1.26.4 (
RNase H
)
2,751
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Antisense oligonucleotides (AONs) with single and double
oxetane
C modifications [1',2'-
oxetane
constrained cytidine, 1-(1',3'-O-anhydro-beta-D-psicofuranosyl)cytosine] have been evaluated, in comparison with the corresponding T-modified AONs, for their antisense potentials by targeting to a 15mer complementary RNA. Although the C modified mixmer AONs show approximately 3 degrees C drop per modification in melting temperature (Tm) of their hybrid AON-RNA duplexes, they are found to be good substrates for
RNase H
, in comparison with the native AON-RNA duplex. An AON with double C modifications along with 3'-DPPZ (dipyridophenazine) conjugation shows the Tm of the hybrid duplexes as high as that of the native, and the
RNase H
activity as good as its unconjugated counterpart. A detailed Michaelis-Menten kinetic analysis of
RNase H
cleavage showed that the single and double C modified AON-RNA duplexes as well as double C modifications along with 3'-DPPZ have catalytic activities (kcat) close to the native. However, the R Nase H binding affinity (1/Km) showed a slight decrease with increase in the number of modifications, which results in less effective enzyme activity (kcat/Km) for C modified AON-RNA duplexes. All
oxetane
modified AON-RNA hybrids showed a correlation of Tm with the 1/Km, Vmax, or Vmax/Km. The C modified AONs (with 3'-DPPZ), as in the T counterpart, showed an enhanced tolerance towards the endonuclease and exonuclease degradation compared to the native (the
oxetane
-sugar and the DPPZ based AONs are non-toxic to K562 cell growth, ref. 18). Thus a balance has been found between exo and endonuclease stability vis-a-vis thermostability of the heteroduplex and the R Nase H recruitment capability and cleavage with the
oxetane
-constrained cytidine incorporated AONs as potential antisense candidates with a fully phosphate backbone for further biological assessment.
...
PMID:Antisense oligonuclotides with oxetane-constrained cytidine enhance heteroduplex stability, and elicit satisfactory RNase H response as well as showing improved resistance to both exo and endonucleases. 1292 93
We have earlier reported the synthesis and antisense properties of the conformationally constrained
oxetane
-C and -T containing oligonucleotides, which have shown effective down-regulation of the proto-oncogene c-myb mRNA in the K562 human leukemia cells. Here we report on the straightforward syntheses of the
oxetane
-A and
oxetane
-G nucleosides as well as their incorporations into antisense oligonucleotides (AONs), and compare their structural and antisense properties with those of the T and C modified AONs (including the thermostability and
RNase H
recruitment capability of the AON/RNA hybrid duplex by Michaelis-Menten kinetic analyses, their resistance in the human serum, as well as in the presence of exo and endonucleases).
...
PMID:Synthesis, physicochemical and biochemical studies of 1',2'-oxetane constrained adenosine and guanosine modified oligonucleotides, and their comparison with those of the corresponding cytidine and thymidine analogues. 1536 94
Incorporation of nucleosides with novel base-constraining
oxetane
(OXE) modifications [
oxetane
, 1-(1',3'-O-anhydro-beta-d-psicofuranosyl nucleosides)] into antisense (AS) oligodeoxyribonucleotides (ODNs) should greatly improve the gene silencing efficiency of these molecules. This is because OXE modified bases provide nuclease protection to the natural backbone ODNs, can impart T(m) values similar to those predicted for RNA-RNA hybrids, and not only permit but also accelerate
RNase H
mediated catalytic activity. We tested this assumption in living cells by directly comparing the ability of OXE and phosphorothioate (PS) ODNs to target c-myb gene expression. The ODNs were targeted to two different sites within the c-myb mRNA. One site was chosen arbitrarily. The other was a 'rational' choice based on predicted hybridization accessibility after physical mapping with self-quenching reporter molecules (SQRM). The Myb mRNA and protein levels were equally diminished by OXE and PS ODNs, but the latter were delivered to cells with approximately six times greater efficiency, suggesting that OXE modified ODNs were more potent on a molar basis. The rationally targeted molecules demonstrated greater silencing efficiency than those directed to an arbitrarily chosen mRNA sequence. We conclude that rationally targeted, OXE modified ODNs, can function efficiently as gene silencing agents, and hypothesize that they will prove useful for therapeutic purposes.
...
PMID:Oxetane modified, conformationally constrained, antisense oligodeoxyribonucleotides function efficiently as gene silencing molecules. 1551 12
The
RNase H
cleavage potential of the RNA strand basepaired with the complementary antisense oligonucleotides (AONs) containing North-East conformationally constrained 1',2'-methylene-bridged (azetidine-T and
oxetane
-T) nucleosides, North-constrained 2',4'-ethylene-bridged (aza-ENA-T) nucleoside, and 2'-alkoxy modified nucleosides (2'-O-Me-T and 2'-O-MOE-T modifications) have been evaluated and compared under identical conditions. When compared to the native AON, the aza-ENA-T modified AON/RNA hybrid duplexes showed an increase of melting temperature (DeltaTm = 2.5-4 degrees C per modification), depending on the positions of the modified residues. The azetidine-T modified AONs showed a drop of 4-5.5 degrees C per modification with respect to the native AON/RNA hybrid, whereas the isosequential
oxetane
-T modified counterpart, showed a drop of approximately 5-6 degrees C per modification. The 2'-O-Me-T and 2'-O-MOE-T modifications, on the other hand, showed an increased of Tm by 0.5 C per modification in their AON/RNA hybrids. All of the partially modified AON/RNA hybrid duplexes were found to be good substrates for the
RNase H
mediated cleavage. The Km and Vmax values obtained from the RNA concentration-dependent kinetics of
RNase H
promoted cleavage reaction for all AON/RNA duplexes with identical modification site were compared with those of the reference native AON/RNA hybrid duplex. The catalytic activities (Kcat) of
RNase H
were found to be greater (approximately 1.4-2.6-fold) for all modified AON/RNA hybrids compared to those for the native AON/RNA duplex. However, the
RNase H
binding affinity (1/Km) showed a decrease (approximately 1.7-8.3-fold) for all modified AON/RNA hybrids. This resulted in less effective (approximately 1.1-3.2-fold) enzyme activity (Kcat/Km) for all modified AON/RNA duplexes with respect to the native counterpart. A stretch of five to seven nucleotides in the RNA strand (from the site of modifications in the complementary modified AON strand) was found to be resistant to
RNase H
digestion (giving a footprint) in the modified AON/RNA duplex. Thus, (i) the AON modification with azetidine-T created a resistant region of five to six nucleotides, (ii) modification with 2'-O-Me-T created a resistant stretch of six nucleotides, (iii) modification with aza-ENA-T created a resistant region of five to seven nucleotide residues, whereas (iv) modification with 2'-O-MOE-T created a resistant stretch of seven nucleotide residues. This shows the variable effect of the microstructure perturbation in the modified AON/RNA heteroduplex depending upon the chemical nature as well as the site of modifications in the AON strand. On the other hand, the enhanced blood serum as well as the 3'-exonuclease stability (using snake venom phosphodiesterase, SVPDE) showed the effect of the tight conformational constraint in the AON with aza-ENA-T modifications in that the 3'-exonuclease preferentially hydrolyzed the 3'-phosphodiester bond one nucleotide away (n + 1) from the modification site (n) compared to all other modified AONs, which were 3'-exonuclease cleaved at the 3'-phosphodiester of the modification site (n). The aza-ENA-T modification in the AONs made the 5'-residual oligonucleotides (including the n + 1 nucleotide) highly resistant in the blood serum (remaining after 48 h) compared to the native AON (fully degraded in 2 h). On the other hand, the 5'-residual oligonucleotides (including the n nucleotide) in azetidine-T, 2'-O-Me-T, and 2'-O-MOE-T modified AONs were more stable compared to that of the native counterpart but more easily degradable than that of aza-ENA-T containing AONs.
...
PMID:Comparison of the RNase H cleavage kinetics and blood serum stability of the north-conformationally constrained and 2'-alkoxy modified oligonucleotides. 1741 Oct 72
