A Null Mutation in the Gene Encoding the Herpes Simplex Virus Type 1 UL37 Polypeptide Abrogates Virus Maturation

doi:10.1128/JVI.75.21.10259-10271.2001

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Journal of Virology, November 2001, p. 10259-10271, Vol. 75, No. 21
0022-538X/01/$04.00+0 DOI: 10.1128/JVI.75.21.10259-10271.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.

A Null Mutation in the Gene Encoding the Herpes Simplex Virus Type 1 UL37 Polypeptide Abrogates Virus Maturation

Prashant Desai,¹^,^* Gerry L. Sexton,² J. Michael McCaffery,² and Stanley Person¹

Department of Pharmacology and Molecular Sciences, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205,¹ and Integrated Imaging Center, Department of Biology, Johns Hopkins University, Baltimore, Maryland 21218²

Received 21 May 2001/Accepted 8 August 2001

The tegument is an integral and essential structural component of the herpes simplex virus type 1 (HSV-1) virion. The UL37open reading frame of HSV-1 encodes a 120-kDa virion polypeptidewhich is a resident of the tegument. To analyze the function ofthe UL37-encoded polypeptide a null mutation was generated inthe gene encoding this protein. In order to propagate this mutantvirus, transformed cell lines that express the UL37 gene productin trans were produced. The null mutation was transferred intothe virus genome using these complementing cell lines. A mutantvirus designated K $Delta$ UL37 was isolated based on its ability to formplaques on the complementing cell line but not on nonpermissive(noncomplementing) Vero cells. This virus was unable to grow inVero cells; therefore, UL37 encodes an essential function of thevirus. The mutant virus K $Delta$ UL37 produced capsids containing DNAas judged by sedimentation analysis of extracts derived from infectedVero cells. Therefore, the UL37 gene product is not required forDNA cleavage or packaging. The UL37 mutant capsids were taggedwith the smallest capsid protein, VP26, fused to green fluorescentprotein. This fusion protein decorates the capsid shell and consequentlythe location of the capsid and the virus particle can be visualizedin living cells. Late in infection, K $Delta$ UL37 capsids were observedto accumulate at the periphery of the nucleus as judged by theconcentration of fluorescence around this organelle. Fluorescencewas also observed in the cytoplasm in large puncta. Fluorescenceat the plasma membrane, which indicated maturation and egressof virions, was observed in wild-type-infected cells but was absentin K $Delta$ UL37-infected cells. Ultrastructural analysis of thin sectionsof infected cells revealed clusters of DNA-containing capsidsin the proximity of the inner nuclear membrane. Occasionally envelopedcapsids were observed between the inner and outer nuclear membranes.Clusters of unenveloped capsids were also observed in the cytoplasmof K $Delta$ UL37-infected cells. Enveloped virions, which were observedin the cytoplasm of wild-type-infected cells, were never detectedin the cytoplasm of K $Delta$ UL37-infected cells. Crude cell fractionationof infected cells using detergent lysis demonstrated that two-thirdsof the UL37 mutant particles were associated with the nuclearfraction, unlike wild-type particles, which were predominantlyin the cytoplasmic fraction. These data suggest that in the absenceof UL37, the exit of capsids from the nucleus is slowed. UL37mutant particles can participate in the initial envelopment atthe nuclear membrane, although this process may be impaired inthe absence of UL37. Furthermore, the naked capsids depositedin the cytoplasm are unable to progress further in the morphogenesispathway, which suggests that UL37 is also required for egressand reenvelopment. Therefore, the UL37 gene product plays a keyrole in the early stages of the maturation pathway that give riseto an infectiousvirion.

^* Corresponding author. Mailing address: Department of Pharmacology and Molecular Sciences, Johns Hopkins University Schoolof Medicine, Baltimore, MD 21205. Phone: (410) 614-1581. Fax:(410) 955-3023. E-mail: pdesai{at}jhmi.edu.

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