Synthesis of anthraquinonyl glucosaminosides and studies on the influence of aglycone hydroxyl substitution on superoxide generation, DNA binding, and antimicrobial properties

Synthesis of anthraquinonyl glucosaminosides and studies on the influence of aglycone hydroxyl substitution on superoxide generation, DNA binding, and antimicrobial properties

A series of anthraquinonyl glucosaminosides (10a-e) were synthesized by Koenigs-Knorr glycosidation of the corresponding aglycones (11a-e) with bromo sugar 12 followed by saponification. These glycosides were intended to serve as models to study the role played by the hydroxyl substituents on the ag...

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Veröffentlicht in:Journal of medicinal chemistry 1986-09, Vol.29 (9), p.1709-1714
Hauptverfasser: Abramson, Hanley N, Banning, Jon W, Nachtman, Joseph P, Roginski, Edward T, Sardessai, Maniklal, Wormser, Henry C, Wu, Jender, Nagia, Ziad, Schroeder, Ronald R, Bernardo, Maria Margarida
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Anthraquinones - chemical synthesis
Anthraquinones - metabolism
Anthraquinones - pharmacology
Carbohydrates with 4, 5, 6, ... C atoms, dissacharides and oligosaccharides
Carbohydrates. Nucleosides and nucleotides
Cattle
Chemical Phenomena
Chemistry
DNA - metabolism
Exact sciences and technology
Glucosamine - analogs & derivatives
Glucosides - chemical synthesis
Glucosides - metabolism
Glucosides - pharmacology
Glycosides - pharmacology
Gram-Positive Bacteria - drug effects
Heart - drug effects
Male
Myocardium - metabolism
Organic chemistry
Preparations and properties
Rats
Rats, Inbred Strains
Structure-Activity Relationship
Superoxides - metabolism
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Zusammenfassung:A series of anthraquinonyl glucosaminosides (10a-e) were synthesized by Koenigs-Knorr glycosidation of the corresponding aglycones (11a-e) with bromo sugar 12 followed by saponification. These glycosides were intended to serve as models to study the role played by the hydroxyl substituents on the aglycone portion of the antitumor anthracycline antibiotics. Superoxide generation as measured in rat heart sarcosomes was found to increase with the addition of successive hydroxyl groups to the anthraquinone nucleus. The 1,8-dihydroxy pattern was determined to generate significantly less superoxide than the 1,4-dihydroxy pattern. Hydroxyl substitution was also observed to stabilize the complex formed between the anthraquinones and DNA and was required for antibacterial activity against a number of Gram-positive organisms.
ISSN:0022-2623
1520-4804
DOI:10.1021/jm00159a024