Acyclic nucleoside phosphonates (ANPs) inhibit replication of both DNA viruses and retroviruses, including HIV. The major mechanism of their antiviral action is inhibition of virus-induced DNA polymerases and/or of reverse transcriptases. We investigated the effects of ANPs on proliferation of mitogen-stimulated mouse and rat splenocytes. Included in the study were compounds differing at the heterocyclic base, i.e., adenine (A) and 2,6-diaminopurine (DAP), and at the N(9)-side chain, i.e., 9-[2-(phosphonomethoxy)ethyl] (PME) and (R)- or (S)-enantiomers of 9-[2-(phosphonomethoxy)propyl] (PMP) moieties, and their numerous N(6)-substituted derivatives. The medial inhibitory concentrations (IC50) of N(6)-nonsubstituted compounds range from 0.13 (PMEDAP) to 354 microM ((R)-PMPA). Antiproliferative effects are more pronounced in PME than in PMP series, and they are more prominent in DAP compared to A analogs. The (S)-enantiomers of PMP series are more effective than corresponding (R)-congers. The highest cytostatic potential is exhibited by N(6)-allyl-PMEDAP (IC50 = 0.017 microM) and N(6)-cyclopropyl-PMEDAP (IC50 = 0.036 microM). The N(6)-substituted derivatives of (S)-PMPA are virtually devoid of cytostatic activity. No tight correlation between the cytostatic and reported antiviral effects could be detected.

Institute of Experimental Medicine Academy of Sciences of the Czech Republic 142 20 Prague Czech Republic

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