Silke Volkmann scite author profile

A previously described self-complementary oligodeoxynucleotide termed triplex-forming oligodeoxynucleotide (TFO A), 54 bases in length, designed against the polypurine tract of HIV-1 RNA, inhibited viral replication at a 1 to 3 microM concentration in acutely infected cells, whereas antisense and scrambled sequence oligodeoxynucleotides were ineffective. Three HIV-1 viral isolates from patients of clinical categories A1, B, and C3 were transmitted to peripheral blood mononuclear cells and tested for production of p24 antigen and syncytium formation in the absence and in the presence of either TFO A or a control oligodeoxynucleotide of randomized sequence. No p24 antigen or syncytia were detected for up to 30 days when TFO A was added to the cells. Viability of the cells was found not to be affected by the drugs compared to controls within 2 weeks. Analysis of viral DNA synthesis by PCR for the LTR and gag gene indicated no DNA signal, suggesting that TFO A affects viral replication before formation of a DNA provirus. Measurements of the stability of TFO A indicate a half-life of about 2 hr. A two-dimensional computer fold analysis of TFO A suggested a self-complementary hairpin-loop configuration with GC-rich stems and single-stranded 5' and 3' ends. Since intracellular triplex formation may not be an efficient process, the observed inhibitory effect may be due to a direct inhibition of the RT and RNase H enzyme activities by the oligodeoxynucleotide. However, a triple-helix effect on the incoming RNA may play a role as well.

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The polypurine tract, PPT, of HIV as target for antisense and triple-helix-forming oligonucleotides

Volkmann

Dannull

Moelling

1993

Biochimie

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Enzymatic analysis of two HIV-1 reverse transcriptase mutants with mutations in carboxyl-terminal amino acid residues conserved among retroviral ribonucleases H.

Volkmann

Wöhrl

Tisdale

et al. 1993

Journal of Biological Chemistry

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Inhibition of HIV-1 reverse transcription by triple-helix forming oligonucleotides with viral RNA

Volkmann

Jendis²,

Frauendorf

et al. 1995

Nucl Acids Res

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Reverse transcription of retroviral RNA into double-stranded DNA is catalyzed by reverse transcriptase (RT). A highly conserved polypurine tract (PPT) on the viral RNA serves as primer for plus-strand DNA synthesis and is a possible target for triple-helix formation. Triple-helix formation during reverse transcription involves either single-stranded RNA or an RNA.DNA hybrid. The effect of triple-helix formation on reverse transcription has been analyzed here in vitro using a three-strand-system consisting of an RNA.DNA hybrid and triplex-forming oligonucleotides (TFOs) consisting either of DNA or RNA. Three strand triple-helices inhibit RNase H cleavage of the PPT-RNA.DNA hybrid and initiation of plus-strand DNA synthesis in vitro. Triple-helix formation on a single-stranded RNA target has also been tested in a two-strand-system with TFOs comprising Watson-Crick and Hoogsteen base-pairing sequences, both targeted to the PPT-RNA, on a single strand connected by a linker (T)4. TFOs prevent RNase H cleavage of the PPT-RNA and initiation of plus-strand DNA synthesis in vitro. In cell culture experiments one TFO is an efficient inhibitor of retrovirus replication, leading to a block of p24 synthesis and inhibition of syncytia formation in newly infected cells.

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Silke Volkmann

Mutations of a conserved residue within HIV-1 ribonuclease H affect its exo- and endonuclease activities

Inhibition of Replication of Fresh HIV Type 1 Patient Isolates by a Polypurine Tract-Specific Self-Complementary Oligodeoxynucleotide

The polypurine tract, PPT, of HIV as target for antisense and triple-helix-forming oligonucleotides

Enzymatic analysis of two HIV-1 reverse transcriptase mutants with mutations in carboxyl-terminal amino acid residues conserved among retroviral ribonucleases H.

Inhibition of HIV-1 reverse transcription by triple-helix forming oligonucleotides with viral RNA

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