Quantitative polymerase chain reaction analysis of herpes simplex virus DNA in ganglia of mice infected with replication-incompetent mutants.

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J Virol. 1990 September; 64(9): 4288-4295

Quantitative polymerase chain reaction analysis of herpes simplex virus DNA in ganglia of mice infected with replication-incompetent mutants.

J P Katz, E T Bodin and D M Coen

Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, Massachusetts 02115.

ABSTRACT

To study the roles of viral genes in the establishment and maintenanceof herpes simplex virus (HSV) latency, we have developed a polymerasechain reaction assay that is both quantitative and sensitive.Using this assay, we analyzed the levels of viral DNA in trigeminalganglia of mice inoculated corneally with HSV mutants that aredefective for virus replication at one or more sites in miceand for reactivation upon ganglionic explant. Ganglia from miceinfected with thymidine kinase-negative mutants, which replicateat the site of inoculation and establish latency but do notreplicate acutely in ganglia or reactivate upon explant, containeda range of levels of HSV DNA that overlapped with the rangefound in ganglia latently infected with wild-type virus. Onaverage, these mutant-infected ganglia contained one copy ofHSV DNA per 100 cell equivalents (ca. 10(4) molecules), whichwas 50-fold less than the average for wild-type virus. Gangliafrom mice infected with a ribonucleotide reductase deletionmutant, which is defective for acute replication and reactivationupon ganglionic explant, also contained on average one copyof HSV DNA per 100 cell equivalents. We also detected substantialnumbers of HSV DNA molecules (up to ca. 10(3] in ganglia ofmice infected with an ICP4 deletion mutant and other replication-negativemutants that are severely impaired for viral DNA replicationand gene expression. These results raise the possibility thatsuch mutants can establish latency, which could have importantimplications for mechanisms of latency and for vaccine and antiviraldrug development.

J Virol. 1990 September; 64(9): 4288-4295

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