A Herpesvirus saimiri-based vector expressing TRAIL induces cell death in human carcinoma cell lines and multicellular spheroid cultures

Herpesvirus saimiri is the prototype rhadinovirus and is closely related to human Kaposi's sarcomaassociated herpesvirus. Herpesvirus saimiri strains of subgroup C transduce a broad spectrum of cancer cells and primary cells including human T lymphocytes very efficiently and enable stable transgene expression. Herpesvirus saimiri as a gene therapy vector is favorable because of its large packaging capacity, extensive cell tropism, and long-termed persistence as non-integrating episomes and thus exhibits numerous advantages over commonly used viral vectors. In order to use Herpesvirus saimiri as a secure and versatile gene therapy vehicle, it should be easily manipulated and modified. The recent advances in molecular cloning of large genomic fragments such as virus genomes as bacterial artificial chromosomes facilitated the functional studies and manipulation of herpesviruses using the recombination system of bacteria. Among these, red-recombination based "en passant" mutagenesis method enables seamless genome modification such as deletion, insertion and point mutation very easily and efficiently.

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Self-Repairing Herpesvirus Saimiri Deletion Variants

Heyn

Bremer

Zingler

et al. 2022

Viruses

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Herpesvirus saimiri (HVS) is discussed as a possible vector in gene therapy. In order to create a self-repairing HVS vector, the F plasmid vector moiety of the bacterial artificial chromosome (BAC) was transposed via Red recombination into the virus genes ORF22 or ORF29b, both important for virus replication. Repetitive sequences were additionally inserted, allowing the removal of the F-derived sequences from the viral DNA genome upon reconstitution in permissive epithelial cells. Moreover, these self-repair-enabled BACs were used to generate deletion variants of the transforming strain C488 in order to minimalize the virus genome. Using the en passant mutagenesis with two subsequent homologous recombination steps, the BAC was seamlessly manipulated. To ensure the replication capacity in permissive monkey cells, replication kinetics for all generated virus variants were documented. HVS variants with increased insert capacity reached the self-repair within two to three passages in permissive epithelial cells. The seamless deletion of ORFs 3/21, 12–14, 16 or 71 did not abolish replication competence. Apoptosis induction did not seem to be altered in human T cells transformed with deletion variants lacking ORF16 or ORF71. These virus variants form an important step towards creating a potential minimal virus vector for gene therapy, for example, in human T cells.

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A Herpesvirus saimiri-based vector expressing TRAIL induces cell death in human carcinoma cell lines and multicellular spheroid cultures

Cited by 3 publications

References 42 publications

Application of Viruses for Gene Therapy and Vaccine Development

Application of Viruses for Gene Therapy and Vaccine Development

Herpesvirüs Saimiri’nin Alternatif Gen Terapi Vektörü Olarak Kullanımı

Self-Repairing Herpesvirus Saimiri Deletion Variants

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