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  • Title: Membrane Permeable, Bioreversibly Modified Prodrugs of Nucleoside Diphosphate-γ-Phosphonates.
    Author: Jia X, Weber S, Schols D, Meier C.
    Journal: J Med Chem; 2020 Oct 22; 63(20):11990-12007. PubMed ID: 32991174.
    Abstract:
    Nucleoside reverse transcriptase inhibitors (NRTIs) are widely used as antiviral and anticancer agents, although they require intracellular phosphorylation into their antivirally active form, the triphosphorylated nucleoside analogue metabolites. We report on the synthesis and characterization of a new class of nucleoside triphosphate analogues comprising a C-alkyl-phosphonate moiety replacing the γ-phosphate. These compounds were converted into bioreversibly modified lipophilic prodrugs at the γ-phosphonate by the attachment of an acyloxybenzyl (ester) or an alkoxycarbonyloxybenzyl (carbonate) group. Such compounds formed γ-C-(alkyl)-nucleoside triphosphate analogues with high selectivity because of an enzyme-triggered delivery mechanism. The latter compounds were very stable in CD4+ T-lymphocyte (CEM cell) extracts, and they were substrates for HIV-reverse transcriptase without being substrates for DNA-polymerases α, β, and γ. In antiviral assays, the excellent antiviral activity of the prodrugs that was found in CEM/0 cells was completely kept in CEM/TK- cells. The activity was improved by 3 logs as compared to the parent nucleoside d4T.
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