E Gendaszewska scite author profile

Multidrug resistance-associated protein (MRP1) is a transmembrane pump protein responsible for the efflux of chemotherapeutic drugs, an important cause of anticancer treatment failure. Trying to circumvent MRP-mediated resistance we designed and synthesized hairpin loops forming antisense oligodeoxyribonucleotides (ODNs), both phosphodiesters (PO-ODNs) and their phosphorothioate analogues (PS-ODNs), to reduce the protein expression by targeting its mRNA in a sequence specific manner. Melting temperature measurements as well as polyacrylamide gel electrophoresis supported the preferential formation of a secondary structure, which was expected to protect ODNs against 3'-exonuclease degradation. ODNs and PS-ODNs designed in this work were successfully tested as antisense inhibitors of the expression of MRP1 in the leukaemia HL60/ADR cell line. Foreseeing the necessity to perform clinical studies with such ODNs we investigated their stability against the 3'-exonuclease activity of fetal calf serum and human plasma. Under the conditions, corresponding to physiological ones, we observed high stability of hairpin loop forming ODNs, especially those containing longer (e.g. 7 base pair) stems. Comparative studies on the stability of chemically unmodified hairpin loop forming ODNs and their PS-counterparts indicated that endonuclease activity did not play any important role in the process of their nucleolytic degradation. Our studies provide strong evidence for high stability of chemically unmodified hairpin loop ODNs, making them an attractive alternative to phosphorothioate analogues commonly used in antisense strategy.

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Enzymatic Assignment of Diastereomeric Purity of Stereodefined Phosphorothioate Oligonucleotides

Koziołkiewicz¹,

Owczarek²,

Gendaszewska³

1999

Antisense and Nucleic Acid Drug Development

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Enzymatic hydrolysis of stereoregular oligodeoxyribonucleoside phosphorothioates (PS-oligos) synthesized via the oxathiaphospholane method has been used for assignment of their diastereomeric purity. For this purpose, two well-known enzymes of established diastereoselectivity, nuclease P1 and snake venom phosphodiesterase (svPDE) have been used. However, because of some disadvantageous properties of svPDE, a search for other [Rp]-specific endonucleases was undertaken. Extracellular bacterial endonuclease isolated from Serratia marcescens accepts PS-oligos as substrates and hydrolyzes phosphorothioate bonds of the [Rp] configuration, whereas internucleotide [Sp]-phosphorothioates are resistant to its action. Cleavage experiments carried out with the use of unmodified and phosphorothioate oligonucleotides of different sequences demonstrate that the Serratia nuclease is more selective in recognition and hydrolysis of oligodeoxyribonucleotides than previously reported. The substrate specificity exhibited by the enzyme is influenced not only by the nucleotide sequence at the cleavage site but also by the length and base sequence of flanking sequences. The Serratia nuclease can be useful for analysis of diastereomeric purity of stereodefined phosphorothioate oligonucleotides, but because of its sequence preferences, the use of this enzyme in conjunction with svPDE is more reliable.

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E Gendaszewska

The mononucleotide-dependent, nonantisense mechanism of action of phosphodiester and phosphorothioate oligonucleotides depends upon the activity of an ecto-5′-nucleotidase

Antisense hairpin loop oligonucleotides as inhibitors of expression of multidrug resistance-associated protein 1: their stability in fetal calf serum and human plasma.

Enzymatic Assignment of Diastereomeric Purity of Stereodefined Phosphorothioate Oligonucleotides

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