L M Vance scite author profile

A series of 2-amino-3-substituted-6-[(E)-1-phenyl-2-(N-methylcarbamoyl)vinyl]+ ++imid azo[1,2-a]pyridines 1a-i, structurally related to Enviroxime and its analogous benzimidazoles, was designed and prepared for testing as antirhinovirus agents. The imidazo ring in this class of compounds was constructed starting from the aminopyridine after tosylation and subsequent treatment with the appropriate acetamides. The key steps in the synthesis include the development and use of a new Horner-Emmons reagent for the direct incorporation of methyl vinylcarboxamide. The reaction was stereospecific in the substrates 5a-f leading exclusively to the desired E-isomer and avoiding the use of reverse-phase preparative HPLC for the separation of both possible isomers before antiviral activity evaluation. The isopropylsulfonyl group, known as the best substituent at the 1-position in the benzimidazole SAR in terms of activity, was introduced in this new series of imidazo[1,2-a]pyridines via halogen-metal exchange and subsequent treatment with isopropyl isopropanethiolsulfonate. Compounds 1a-i were evaluated in plaque reduction assay and in a cytopathic effect assay. Compounds 1b-d,h exhibited a strong antirhinovirus activity, and no apparent cellular toxicity was visible. The substitution at the 3-position was required for activity. Surprisingly the isopropylsulfonyl in this family of compounds did not enhance the activity as in the case of benzimidazoles. Instead, compound 1i was 4 times less active than its phenyl and sulfide partners. The chemistry as well as the biological evaluation are discussed.

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The antiviral compound enviroxime targets the 3A coding region of rhinovirus and poliovirus

Heinz

Vance

1995

J Virol

124

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Enviroxime is an antiviral compound that inhibits the replication of rhinoviruses and enteroviruses. We have explored the mechanism of action of enviroxime by using poliovirus type 1 and human rhinovirus type 14 as model systems. By varying the time of drug addition to virus-infected cells, we determined that enviroxime could be added several hours postinfection without significant loss of inhibition. This suggested that the drug targeted a step involved in RNA replication or protein processing. To identify this target, we mapped 23 independent mutations in mutants that could multiply in the presence of 1 g of enviroxime per ml. Each of these mutants contained a single nucleotide substitution that altered one amino acid in the 3A coding region. Using oligonucleotide-directed mutagenesis of cDNA clones, we have confirmed that these single-amino-acid substitutions are sufficient to confer the resistance phenotype. In addition, we conducted two experiments to support the hypothesis that enviroxime inhibits a 3A function. First, we determined by dot blot analysis of RNA from poliovirus-infected cells that enviroxime preferentially inhibits synthesis of the viral plus strand. Second, we demonstrated that enviroxime inhibits the initiation of plus-strand RNA synthesis as measured by the addition of [ 32 P]uridine to 3AB in poliovirus crude replication complexes. To our knowledge, this is the first evidence that 3A can be targeted by antiviral drugs. We anticipate that enviroxime will be a useful tool for investigating the natural function of the 3A protein.

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Poliovirus 2C region functions during encapsidation of viral RNA

Vance

Moscufo

Chow

et al. 1997

J Virol

111

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We have been exploring the mechanism of action of 5-(3,4-dichlorophenyl) methylhydantoin (hydantoin), an antiviral drug that inhibits the replication of poliovirus in culture. By varying the time of drug addition to infected cells, we found that the drug acts at a stage which is late in the replication cycle and subsequent to the step inhibited by guanidine. Furthermore, we detected normal levels of full-length plus-strand virion RNA in hydantoin-treated cultures. A new assembly intermediate in addition to the expected assembly intermediates was detected in drug-treated cultures. This intermediate has properties consistent with that of a packaging intermediate. Drug-resistant mutants were readily isolated. Sequence analysis of three independent drugresistant mutants identified amino acid substitutions in the 2C coding region. Reconstruction by site-directed mutagenesis confirmed that these single mutations were sufficient to confer drug resistance. Taken together, these data suggest that the poliovirus 2C region is involved in virus encapsidation and that hydantoin inhibits this stage of replication.

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Synthesis, Antiviral Activity, and Biological Properties of Vinylacetylene Analogs of Enviroxime

et al. 1997

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A series of vinylacetylene analogs of Enviroxime (1) was synthesized. The new compounds are potent inhibitors of poliovirus in tissue culture. Cross-sensitivity with Enviroxime-derived mutants shows that the new compounds have the same mechanism of action as Enviroxime, which involves the viral 3A protein. In studies with Rhesus monkeys, the p-fluoro derivative 12 was found to be unique in providing oral bioavailability. Metabolism studies using hepatic microsomes suggest that this procedure would be a useful in vitro method for selecting the appropriate animal model for testing oral absorption. Compound 12 was found to be efficacious by oral administration in treating a Coxsackie A21 infection in CD-1 mice.

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Sequence determinants of 3A-mediated resistance to enviroxime in rhinoviruses and enteroviruses

Heinz

Vance

1996

J Virol

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L M Vance

2-Amino-3-substituted-6-[(E)-1-phenyl-2-(N-methylcarbamoyl)vinyl]imidazo[1,2-a]pyridines as a Novel Class of Inhibitors of Human Rhinovirus: Stereospecific Synthesis and Antiviral Activity

The antiviral compound enviroxime targets the 3A coding region of rhinovirus and poliovirus

Poliovirus 2C region functions during encapsidation of viral RNA

Synthesis, Antiviral Activity, and Biological Properties of Vinylacetylene Analogs of Enviroxime

Sequence determinants of 3A-mediated resistance to enviroxime in rhinoviruses and enteroviruses

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