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  • Chemical insights in the concept of hybrid drugs: the antitumor effect of nitric oxide-donating aspirin involves a quinone methide but not nitric oxide nor aspirin.

Chemical insights in the concept of hybrid drugs: the antitumor effect of nitric oxide-donating aspirin involves a quinone methide but not nitric oxide nor aspirin.

Journal of medicinal chemistry (2007-04-20)
Niels Hulsman, Jan Paul Medema, Carina Bos, Aldo Jongejan, Rob Leurs, Martine J Smit, Iwan J P de Esch, Dick Richel, Maikel Wijtmans
RESUMEN

Hybrid drug 1 (NO-ASA) continues to attract intense research from chemists and biologists alike. It consists of ASA and a -ONO2 group connected through a spacer and is in preclinical development as an antitumor drug. We report that, contrary to current beliefs, neither ASA nor NO contributes to this antitumor effect. Rather, an unsubstituted QM was identified as the sole cytotoxic agent. QM forms from 1 after carboxylic ester hydrolysis and, in accordance with the HSAB theory, selectively reacts with cellular GSH, which in turn triggers cell death. Remarkably, a derivative lacking ASA and the -ONO2 group is 10 times more effective than 1. Thus, our data provide a conclusive molecular mechanism for the antitumor activity of 1. Equally importantly, we show for the first time that a "presumed invisible" linker in a hybrid drug is not so invisible after all and is in fact solely responsible for the biological effect.

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Sigma-Aldrich
Acetylsalicylic acid, ≥99.0%
Sigma-Aldrich
Aspirin, meets USP testing specifications
Sigma-Aldrich
Acetylsalicylic acid, analytical standard