51. Polysaccharide Pharmacokinetics: Amphotericin B Arabinogalactan Conjugate—A Drug Delivery System or a New Pharmaceutical Entity?
- Author
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Abraham J. Domb, Shimon Farber, Amnon Hoffman, Itzhack Polacheck, and Anna Elgart
- Subjects
Male ,Polymers and Plastics ,animal diseases ,Bioengineering ,Galactans ,Biomaterials ,Drug Delivery Systems ,Pharmacokinetics ,Polysaccharides ,Arabinogalactan ,Amphotericin B ,Spectroscopy, Fourier Transform Infrared ,parasitic diseases ,Materials Chemistry ,Animals ,Distribution (pharmacology) ,Rats, Wistar ,Chromatography, High Pressure Liquid ,urogenital system ,Chemistry ,technology, industry, and agriculture ,Prodrug ,bacterial infections and mycoses ,Rats ,Biochemistry ,Pharmacodynamics ,Drug delivery ,Spectrophotometry, Ultraviolet ,Drug carrier ,Half-Life ,Conjugate - Abstract
Conjugation of poorly soluble drugs to polysaccharides affects their solubility, pharmacokinetics (PK), and pharmacodynamics. The need for amphotericin B (AmB) analog with improved solubility and reduced toxicity is immense. Conjugation of AmB to arabinogalactan (AG) produced a highly soluble AmB-AG conjugate, with high and low molecular weight (H-M(w) and L-M(w)) fractions. Its similar antifungal activity to AmB poses the question whether AmB-AG is a prodrug of AmB or a novel pharmaceutical entity. We compared the PK of AmB-AG and AmB in rats. Upon AmB-AG administration, no free AmB was released. The half-lives and the volumes of distribution of AmB, H-M(w) and L-M(w) were 10.9, 8.8, and 1.5 h and 1630, 217, and 133 mL/kg, respectively. We conclude that PK of small molecules conjugated to polysaccharides is mainly dictated by the macromolecular moiety and shows molecular weight dependency. Our findings define AmB-AG as a novel pharmaceutical entity with high clinical potential.
- Published
- 2010
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