Pyrimidine and nucleoside gamma-esters of L-Glu-Sar: synthesis, stability and interaction with hPEPT1

André H Eriksson, Peter L Elm, Mikael Begtrup, Birger Brodin, Robert Nielsen, Bente Steffansen

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    Abstract

    The aim of the present study was to improve the synthetic pathway of bioreversible dipeptide derivatives as well as evaluate the potential of using l-Glu-Sar as a pro-moiety for delivering three newly synthesised nucleoside and pyrimidine l-Glu-Sar derivatives. l-Glu(trans-2-thymine-1-yl-tetrahydrofuran-3-yl ester)-Sar (I), l-Glu(thymine-1-yl-methyl ester)-Sar (II) and l-Glu(acyclothymidine)-Sar (III) were synthesised and in vitro stability was studied in various aqueous and biological media. Affinity to and translocation via hPEPT1 was investigated in mature Caco-2 cell monolayers, grown on permeable supports. Affinity was estimated in a competition assay, using [14C] labelled Gly-Sar (glycylsarcosine). Translocation was measured as pHi-changes induced by the substrates using the fluorescent probe BCECF and an epifluorescence microscope setup. All dipeptide derivatives released the model drugs quantitatively by specific base-catalysed hydrolysis at pH>6.0. II was labile in aqueous buffer solution, whereas I and III showed appropriate stability for oral administration. In 10% porcine intestinal homogenate, the half-lives of the dipeptide derivatives indicated limited enzyme catalyzed degradation. All compounds showed good affinity to hPEPT1, but the Compounds I and III showed not to be translocated by hPEPT1. The translocation of the l-Glu-Sar derivative of acyclovir, l-Glu(acyclovir)-Sar was also investigated and showed not to take place. Consequently, l-Glu-Sar seems to be a poor pro-moiety for hPEPT1-mediated transport.
    Original languageEnglish
    JournalEuropean Journal of Pharmaceutical Sciences
    Volume25
    Issue number1
    Pages (from-to)145-154
    Number of pages10
    ISSN0928-0987
    DOIs
    Publication statusPublished - 2005

    Bibliographical note

    Keywords: Bioreversible derivatives; Dipeptide; Aqueous stability; hPEPT1; Caco-2; Intracellular pH

    Keywords

    • Biological Transport
    • Caco-2 Cells
    • Dipeptides
    • Drug Stability
    • Humans
    • Hydrogen-Ion Concentration
    • Nucleosides
    • Prodrugs
    • Pyrimidines
    • Symporters

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