Point mutations in the DNA polymerase gene of human cytomegalovirus that result in resistance to antiviral agents.

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J Virol. 1992 December; 66(12): 7146-7152

Point mutations in the DNA polymerase gene of human cytomegalovirus that result in resistance to antiviral agents.

N S Lurain, K D Thompson, E W Holmes and G S Read

Department of Pathology, Loyala University Medical Center, Maywood, Illinois 60153.

ABSTRACT

Three independently isolated mutants of human cytomegalovirusstrain AD169 were found to be resistant to ganciclovir at a50% effective dose of 200 microM. Phosphorylation of ganciclovirwas reduced 10-fold in mutant-infected cells compared with AD169-infectedcells. All three mutants were also determined to be resistantto the nucleotide analogs (S)-1-[(3-hydroxy-2- phosphonylmethoxy)propyl]adenine(HPMPA) and (S)-1-[(3-hydroxy-2-phosphonylmethoxy)propyl]cytosine(HPMPC) and hypersensitive to thymine-1-D-arabinofuranoside(AraT). Single base changes resulting in amino acid substitutionswere demonstrated in the nucleotide sequence of the DNA polymerasegene of each mutant. The polymerase mutation contained in oneof the mutants was transferred to the wild-type AD169 background.Ganciclovir phosphorylation in cells infected with the recombinantvirus produced by this transfer was found to be equivalent tothat of AD169-infected cells. The ganciclovir resistance ofthe recombinant was reduced fourfold compared with that of theparental mutant; however, the recombinant remained resistantto HPMPA and HPMPC and hypersensitive to AraT. The ganciclovirresistance of the mutants therefore appears to result from mutationsin two genes: (i) a kinase which phosphorylates ganciclovirand (ii) the viral DNA polymerase.

J Virol. 1992 December; 66(12): 7146-7152

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