ABSTRACT
9-[2-(Thiophosphonomethoxy)ethyl]adenine [S-PMEA, 8] and (R)-9-[2-(Thiophosphonomethoxy)propyl]adenine [S-PMPA, 9] are acyclic nucleoside thiophosphonates we described recently that display the same antiviral spectrum (DNA viruses) as approved and potent phosphonates PMEA and (R)-PMPA. Here, we describe the synthesis, antiviral activities in infected cell cultures and decomposition study of bis(pivaloyloxymethoxy)-S-PMEA [Bis-POM-S-PMEA, 13] and bis(isopropyloxymethylcarbonyl)-S-PMPA [Bis-POC-S-PMPA, 14] as orally bioavailable prodrugs of the S-PMEA 8 and S-PMPA 9, in comparison to the equivalent "non-thio" derivatives [Bis-POM-PMEA, 11] and [Bis-POC-PMPA, 12]. Compounds 11, 12, 13 and 14 were evaluated for their in vitro antiviral activity against HIV-1-, HIV-2-, HBV- and a broad panel of DNA viruses, and found to exhibit moderate to potent antiviral activity. In order to determine the decomposition pathway of the prodrugs 11, 12, 13 and 14 into parent compounds PMEA, PMPA, 8 and 9, kinetic data and decomposition pathways in several media are presented. As expected, bis-POM-S-PMEA 13 and bis-POC-S-PMPA 14 behaved as prodrugs of S-PMEA 8 and S-PMPA 9. However, thiophosphonates 8 and 9 were released very smoothly in cell extracts, in contrast to the release of PMEA and PMPA from "non-thio" prodrugs 11 and 12.
Subject(s)
Antiviral Agents/pharmacology , Organophosphonates/pharmacology , Organothiophosphonates/pharmacology , Prodrugs/pharmacology , Antiviral Agents/chemical synthesis , Antiviral Agents/chemistry , Cell Line, Tumor , Cell Survival/drug effects , DNA Viruses/drug effects , Dose-Response Relationship, Drug , Esters/chemical synthesis , Esters/chemistry , Esters/pharmacology , HIV-1/drug effects , HIV-2/drug effects , Hepatitis B virus/drug effects , Humans , Models, Chemical , Molecular Structure , Nucleosides/chemistry , Organophosphonates/chemical synthesis , Organophosphonates/chemistry , Organothiophosphonates/chemical synthesis , Organothiophosphonates/chemistry , Prodrugs/chemical synthesis , Prodrugs/chemistryABSTRACT
9-[2-(Thiophosphonomethoxy)ethyl]adenine 3 and (R)-9-[2-(Thiophosphonomethoxy)propyl]adenine 4 were synthesized as the first thiophosphonate nucleosides bearing a sulfur atom at the α-position of the acyclic nucleoside phosphonates PMEA and PMPA. Thiophosphonates S-PMEA 3 and S-PMPA 4 were evaluated for in vitro activity against HIV-1 (subtypes A to G), HIV-2 and HBV-infected cells, and found to exhibit potent antiretroviral activity. We showed that their diphosphate forms S-PMEApp 5 and S-PMPApp 6 are readily incorporated by wild-type (WT) HIV-1 RT into DNA and act as DNA chain terminators. Compounds 3 and 4 were evaluated for in vitro activity against a broad panel of DNA and RNA viruses and displayed beside HIV a moderate activity against herpes simplex virus and vaccinia viruses. In order to measure enzymatic stabilities of the target derivatives 3 and 4, kinetic data and decomposition pathways were studied at 37 °C in several media.
Subject(s)
Antiviral Agents/pharmacology , HIV-1/drug effects , Hepatitis B virus/drug effects , Organophosphonates/pharmacology , Virus Replication/drug effects , Cell Line , Chromatography, High Pressure Liquid , Drug Stability , HIV-1/physiology , Hepatitis B virus/physiology , Humans , Magnetic Resonance Spectroscopy , Organophosphonates/chemistry , Organophosphonates/pharmacokinetics , Spectrometry, Mass, Fast Atom BombardmentABSTRACT
To find new derivatives that block different virus strains entry in cells bearing specific surface receptors represent an interesting challenge for medicinal chemists. Here, we report the synthesis and the anti-HIV properties of a new series of analogues based on the introduction of quinoline moiety on various polyamine backbones, including polyazamacrocycles. Three compounds 7, 8, and 10 of this series were found active on PBMCs cells infected by HIV-1 LAV or by HIV-1 BaL, in contrast the well-known reference compound 1a (AMD 3100) was found only active on HIV-1 LAV strain.
