In the present study we have investigated the effect of unprecedented chemical modifications introduced in the distamycin molecule, with the aim of assessing their ability to interfere with sequence-specific DNA-protein interactions in vitro. By using an electrophoretic mobility shift assay, we have been able to identify novel distamycin analogues with improved displacing abilities on the binding of octamer nuclear factors to their target DNA sequence. While variations in the number of pyrrole rings and/or reversion of an internal amide bond result in distamycin-like compounds with identical or very similar properties, the reversion of the formamido into a carboxyamido group or its replacement with the charged formimidoyl moiety significantly improves the ability of the resulting novel distamycin derivatives to compete with OCT-1 (octamer 1 nuclear factor) for its target DNA sequence. Tissue-specific octamer-dependent in vitro transcription is similarly affected by these chemical modifications, suggesting that the ability of distamycins to bind octamer sequences has a direct influence on the functional state of octamer-containing promoters. These data represent an initial, successful attempt to rationalize the design of DNA binding drugs, using distamycins as a model.

Distamycin analogues with improved sequence-specific DNA binding activities

FERIOTTO, Giordana;MISCHIATI, Carlo;GAMBARI, Roberto;
1994

Abstract

In the present study we have investigated the effect of unprecedented chemical modifications introduced in the distamycin molecule, with the aim of assessing their ability to interfere with sequence-specific DNA-protein interactions in vitro. By using an electrophoretic mobility shift assay, we have been able to identify novel distamycin analogues with improved displacing abilities on the binding of octamer nuclear factors to their target DNA sequence. While variations in the number of pyrrole rings and/or reversion of an internal amide bond result in distamycin-like compounds with identical or very similar properties, the reversion of the formamido into a carboxyamido group or its replacement with the charged formimidoyl moiety significantly improves the ability of the resulting novel distamycin derivatives to compete with OCT-1 (octamer 1 nuclear factor) for its target DNA sequence. Tissue-specific octamer-dependent in vitro transcription is similarly affected by these chemical modifications, suggesting that the ability of distamycins to bind octamer sequences has a direct influence on the functional state of octamer-containing promoters. These data represent an initial, successful attempt to rationalize the design of DNA binding drugs, using distamycins as a model.
1994
Ciucci, A; Feriotto, Giordana; Mischiati, Carlo; Gambari, Roberto; Animati, F; Lombardi, P; Natali, Pg; Arcamone, F; Giacomini, P.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/462309
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