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Linked drug-drug conjugates based on triterpene and phenol structures. Rational synthesis,molecular properties,toxicity and bioactivity prediction
Affiliation:Department of Organic Chemistry, Pharmaceutical Faculty, Poznan University of Medical Sciences, Grunwaldzka 6, 60-780 Poznań, Poland
Abstract:One of the tasks of modern medicinal chemistry is to produce new molecules that have interesting and desired biological effects. In addition, the synthetic procedure for obtaining these compounds should be at least partially smart and rational e.g. “Lego” and green approaches. The study focuses on the synthesis of several hybrid type compounds that are expected to be characterized by beneficial bioactivities. In order to hybridize natural triterpene oleanolic acid and phenol structures, the linker-mode concept was selected. The synthetic goal was achieved in two stages. The first concerns the rapid introduction of the halogenoacidic linker to active phenols selected as a result of microwave-ultrasonic (MW-US) assisted O-alkylation with the use of 2-halogenoacetic acid. The next stage of the synthetic studies involves the reaction of phenoxyacetic acid derivatives obtained containing an active carboxylic group with oleanolic acid/oxime units by the methods typical of triterpene chemistry. Novel linked ester- and iminoester-type triterpene derivatives with phenols (thymol, eugenol, paracetamol, nipagins, naphthols, curcumin and genistein) were obtained and characterized. Additionally, based on the analysis of numerous references and selected methods of computational chemistry (Molinspiration Cheminformatics, Osiris Property Explorer and PASS method) the molecular parameters and the preliminary anti-inflammatory and antinociceptive activity characterising these molecules as potential drugs were calculated and predicted.
Keywords:Oleanolic acid  Phenol  Drug-drug conjugates (DDCs)  Microwave and ultrasounds assisted synthesis  Molecular parameters  Bioactivity prediction
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