Herpes Simplex Virus Type 1 DNA Amplified As Bacterial Artificial Chromosome in Escherichia Coli: Rescue of Replication-competent Virus Progeny and Packaging of Amplicon Vectors

Overview

Journal Hum Gene Ther

Specialties Genetics
Pharmacology

Date 1999 Jan 5

PMID 9874276

Citations 60

Authors

Y Saeki

T Ichikawa

A Saeki

E A Chiocca

K Tobler

M Ackermann

X O Breakefield

C Fraefel

Affiliations

Soon will be listed here.

Abstract

Herpes simplex virus type 1 (HSV-1)-based amplicon vectors contain only approximately 1% of the 152-kb HSV-1 genome, and consequently, replication and packaging into virions depends on helper functions. These helper functions have been provided conventionally by a helper virus, usually a replication-defective mutant of HSV-1, or more recently, by a set of five cosmids that overlap and represent the genome of HSV-1 deleted for DNA cleavage/packaging signals (pac). In the absence of pac signals, potential HSV-1 genomes that are reconstituted from the cosmids via homologous recombination are not packageable. The resulting amplicon stocks are, therefore, virtually free of contaminating helper virus. To simplify this packing system, the HSV-1 genome was cloned and maintained stably as a single-copy, F plasmid-based bacterial artificial chromosome in E. coli. Such a plasmid containing the HSV-1 genome deleted for the pac signals (fHSV delta pac) did not generate replication-competent progeny virus on transfection into mammalian cells, but rather, it was able to support the packaging of cotransfected amplicon DNA that contained a functional pac signal. The resulting amplicon vector stocks had titers of up to 10(7) transducing units per milliliter of culture medium and efficiently transduced neural cells in the rat brain, as well as hepatocytes in the rat. The capacity of generating infectious and replication-competent HSV-1 progeny following transfection into mammalian cells was restored after insertion of a pac signal into fHSV delta pac.

Citing Articles

Direct cloning of a herpesvirus genome for rapid generation of infectious BAC clones.

Yuan H, Zheng Y, Yan X, Wang H, Zhang Y, Ma J J Adv Res. 2022; 43:97-107.

PMID: 36585118 PMC: 9811322. DOI: 10.1016/j.jare.2022.02.012.

PML Body Component Sp100A Restricts Wild-Type Herpes Simplex Virus 1 Infection.

Ma Y, Li J, Dong H, Yang Z, Zhou L, Xu P J Virol. 2022; 96(8):e0027922.

PMID: 35353002 PMC: 9044927. DOI: 10.1128/jvi.00279-22.

HSV-1 Hijacks the Host DNA Damage Response in Corneal Epithelial Cells through ICP4-Mediated Activation of ATM.

Alekseev O, Donegan W, Donovan K, Limonnik V, Azizkhan-Clifford J Invest Ophthalmol Vis Sci. 2020; 61(6):39.

PMID: 32543665 PMC: 7415316. DOI: 10.1167/iovs.61.6.39.

A Fosmid-Based System for the Generation of Recombinant Cercopithecine Alphaherpesvirus 2 Encoding Reporter Genes.

Chukhno E, Gartner S, Siregar A, Mehr A, Wende M, Petkov S Viruses. 2019; 11(11).

PMID: 31694178 PMC: 6893520. DOI: 10.3390/v11111026.

Novel Mutant AAV2 Rep Proteins Support AAV2 Replication without Blocking HSV-1 Helpervirus Replication.

Seyffert M, Glauser D, Schraner E, de Oliveira A, Mansilla-Soto J, Vogt B PLoS One. 2017; 12(1):e0170908.

PMID: 28125695 PMC: 5268427. DOI: 10.1371/journal.pone.0170908.