The HIV-1 trans-activation responsive element (TAR) RNA stem-loop interacts with the HIV trans-activator protein Tat and other cellular factors to stimulate transcriptional elongation from the viral long terminal repeat (LTR). Inhibitors of these interactions block full-length transcription and, hence, would potentially inhibit HIV replication. We have studied structure-activity relationships in inhibition of trans-activation by steric block 2'-O-methyl (OMe) oligonucleotides chimeras (mixmers) containing locked nucleic acid (LNA) units. Inhibition was measured both in Tat-dependent in vitro transcription from an HIV-1 DNA template directed by HeLa cell nuclear extract and in a robust HeLa cell reporter assay that involves use of stably integrated plasmids to express firefly luciferase Tat dependently and Renilla luciferase Tat-independently. OMe oligonucleotides with optimally 40%-50% LNA units and a minimum of 12 residues in length were active in the cellular assay when delivered with cationic gemini surfactant GS11 at 50% inhibitory concentrations of 230 +/- 40 nM, whereas activity in the in vitro transcription assay was observed down to 9 residues. No cellular activity was observed for OMe oligonucleotides of 12 or 16 residues, which was shown to be due to poor cellular uptake. Both 12-mer mixmers containing alpha -L-LNA or 2'-thio-LNA (S-LNA) were also active in in vitro transcription and the former in cellular reporter inhibition assays, demonstrating that the property of promotion of cellular uptake by LNA is not due to specific sugar conformational effects. Covalent conjugates of OMe/LNA chimeras with Kaposi-fibroblast growth factor (K-FGF) or Transportan peptides failed to enter HeLa cells without a delivery agent but were fully active when delivered by cationic gemini surfactant, showing that in principle, peptide conjugation does not interfere with cellular activity. Thus, OMe/LNA mixmers are powerful reagents for use as steric block inhibitors of gene expression regulated by protein-RNA interactions within HeLa cell nuclei.
Two series of seco-pseudonucleoside synthons were synthesized from (R)-(+)-r-hydroxy-γ-butyrolactone and (R)-(−)-pantolactone by aminolysis, side-chain protection, dimethoxytritylation, and phosphitylation or solid-phase attachment. The phosphoramidites and solid supports were used in automated DNA synthesis to prepare oligonucleotides modified with one or more 2,4-dihydroxybutyramide units bearing side-chain reporter groups. These new oligonucleotide modification reagents allow the introduction of a label into any desired position within an oligonucleotide chain during solid-phase assembly.Synthetic nonisotopically labeled oligonucleotide probes have found widespread application in molecular biology and various nucleic acids-based assays in medicine. 1 The most expeditious way to obtain these materials is machine-assisted solid-phase synthesis. Despite significant progress made over the last two decades in the area of oligonucleotide technology, 2 there is still a need to develop new modified reagents for oligonucleotide labeling during solid-phase assembly, which may allow introduction of various reporter groups into any predetermined position of a nucleic acid chain.A number of nonnucleoside reagents have been suggested to allow site-specific incorporation of various functional groups and nonradioactive labels into an oligonucleotide chain during solid-phase synthesis. [4][5][6][7][8][9][10][11] Frequently, the precursors were shaped to be spatial surrogates of nucleo-
An efficient total stepwise solid-phase synthesis of oligonucleotide-peptide conjugates on a macroporous polystyrene is described. Extending our homoserine linker approach, we prepared a range of fluorescein-labelled conjugates containing one of two different peptides together with oligonucleotides containing 2'-deoxynucleoside or 2'-O-methylribonucleoside phosphodiesters, or gapmers containing 2'-deoxyphosphorothioate sequences flanked by 2'-O-methyl wings.
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