• Title of article

    Synthesis, characterization, and direct aqueous superoxide anion scavenging of a highly water-dispersible astaxanthin-amino acid conjugate

  • Author/Authors

    Henry L Jackson، نويسنده , , Arturo J. Cardounel، نويسنده , , Jay L Zweier، نويسنده , , Samuel F. Lockwood، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2004
  • Pages
    7
  • From page
    3985
  • To page
    3991
  • Abstract
    The aqueous solubility and/or dispersibility of synthetic carotenoid analogs can be improved by varying the chemical structure(s) of the esterified moieties. In the current study, a highly water-dispersible astaxanthin (3,3′-dihydroxy-β,β-carotene-4,4′-dione) derivative was synthesized by esterification to the amino acid l-lysine, and subsequently converted to the tetrahydrochloride salt. Deep violet, evenly colored aqueous suspensions were obtained with addition of the novel derivative to USP purified water up to a maximum of 181.6 mg/mL. These aqueous suspensions were obtained without the addition of heat, detergents, co-solvents, or other additives. At higher concentrations (above 181.6 mg/mL), the dispersion became turbid and viscous. There was no saturation point up to 181.6 mg/mL. The direct superoxide scavenging ability of the tetrahydrochloride dilysine astaxanthin salt was also evaluated by electron paramagnetic resonance (EPR) spectroscopy in a well-characterized in vitro isolated human neutrophil assay. The novel derivative was an extremely potent (micromolar concentration) aqueous-phase scavenger, with near-complete suppression of the superoxide anion signal (as detected by spin-trap adducts of DEPMPO) achieved at 100 μM. To the authorsʹ knowledge, this novel carotenoid derivative exhibits the greatest aqueous dispersibility yet described for a natural and/or synthetic C40 carotenoid, and as such, will find utility in those applications for which aqueous-phase singlet oxygen quenching and direct radical scavenging are required.
  • Keywords
    DEPMPO , Spin traps , carotenoids , Carotenoid derivatives , Astaxanthin , Aqueous dispersibility , Tetrahydrochloride dilysine astaxanthin salt , Electronparamagnetic resonance , EPR , Superoxideanion.
  • Journal title
    Bioorganic & Medicinal Chemistry Letters
  • Serial Year
    2004
  • Journal title
    Bioorganic & Medicinal Chemistry Letters
  • Record number

    794721