Brittany Jasperse scite author profile

Vaccinia virus (VACV) has been used extensively as the vaccine against smallpox and as a viral vector for the development of recombinant vaccines and cancer therapies. Replicationcompetent, non-attenuated VACVs induce strong, long-lived humoral and cell-mediated immune responses and can be effective oncolytic vectors. However, complications from uncontrolled VACV replication in vaccinees and their close contacts can be severe, particularly in individuals with predisposing conditions. In an effort to develop replication-competent VACV vectors with improved safety, we placed VACV late genes encoding core or virion morphogenesis proteins under the control of tet operon elements to regulate their expression with tetracycline antibiotics. These replication-inducible VACVs would only express the selected genes in the presence of tetracyclines. VACVs inducibly expressing the A3L or A6L genes replicated indistinguishably from wild-type VACV in the presence of tetracyclines, whereas there was no evidence of replication in the absence of antibiotics. These outcomes were reflected in mice, where the VACV inducibly expressing the A6L gene caused weight loss and mortality equivalent to wild-type VACV in the presence of tetracyclines. In the absence of tetracyclines, mice were protected from weight loss and mortality, and viral replication was not detected. These findings indicate that replication-inducible VACVs based on the conditional expression of the A3L or A6L genes can be used for the development of safer, next-generation live VACV vectors and vaccines. The design allows for administration of replication-inducible VACV in the absence of tetracyclines (as a replication-defective vector) or in the presence of tetracyclines (as a replication-competent vector) with enhanced safety.

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EPPIC (Efficient Purification by Parental Inducer Constraint) Platform for Rapid Generation of Recombinant Vaccinia Viruses

Jasperse

O’Connell

Wang

et al. 2020

Molecular Therapy - Methods & Clinical Development

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Vaccinia virus (VACV) was successfully used as a vaccine in the smallpox eradication campaign. Since then, it has been widely used in the development of vaccine and therapeutic vectors. However, methods of generating and purifying recombinant VACVs (rVACVs) are often time-consuming, cumbersome, and in some cases require specialized cell lines or equipment.Here, we describe a novel EPPIC (Efficient Purification by Parental Inducer Constraint) platform for the rapid generation of rVACVs using a replication-inducible VACV (vIND) as a parental virus for homologous recombination. Purification of the rVACV from the parental vIND is achieved by two serial passages in the absence of inducer (i.e., parental inducer "constraint") in standard laboratory cell lines, without the need for specialized equipment, within 1 week. We determined the optimal conditions for homologous recombination and serial purification and generated a suite of vIND parental viruses to facilitate customization of the platform. Importantly, the EPPIC platform can be adapted to rapidly generate replication-deficient and replication-competent rVACVs expressing vaccine or therapeutic antigens, with or without screening markers, by simple modifications to a DNA shuttle vector, thus allowing the rapid development, updating, and refinement of personalized or custom vaccines and therapeutic vectors in a matter of days.

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Single dose of a replication-defective vaccinia virus expressing Zika virus-like particles is protective in mice

Jasperse

O’Connell

Wang

et al. 2021

Sci Rep

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Zika virus (ZIKV), a flavivirus transmitted primarily by infected mosquitos, can cause neurological symptoms such as Guillian–Barré syndrome and microcephaly. We developed several vaccinia virus (VACV) vaccine candidates for ZIKV based on replication-inducible VACVs (vINDs) expressing ZIKV pre-membrane (prM) and envelope (E) proteins (vIND-ZIKVs). These vIND-ZIKVs contain elements of the tetracycline operon and replicate only in the presence of tetracyclines. The pool of vaccine candidates was narrowed to one vIND-ZIKV containing a novel mutation in the signal peptide of prM that led to higher expression and secretion of E and production of virus-like particles, which was then tested for safety, immunogenicity, and efficacy in mice. vIND-ZIKV grows to high titers in vitro in the presence of doxycycline (DOX) but is replication-defective in vivo in the absence of DOX, causing no weight loss in mice. C57BL/6 mice vaccinated once with vIND-ZIKV in the absence of DOX (as a replication-defective virus) developed robust levels of E-peptide-specific IFN-γ-secreting splenocytes and anti-E IgG titers, with modest levels of serum-neutralizing antibodies. Vaccinated mice treated with anti-IFNAR1 antibody were completely protected from ZIKV viremia post-challenge after a single dose of vIND-ZIKV. Furthermore, mice with prior immunity to VACV developed moderate anti-E IgG titers that increased after booster vaccination, and were protected from viremia only after two vaccinations with vIND-ZIKV.

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Neuroinvasive flavivirus pathogenesis is restricted by host genetic factors in Collaborative Cross mice, independently of Oas1b

Jasperse¹,

Mattocks²,

Noll

et al. 2022

Preprint

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Powassan virus (POWV) is an emerging tick-borne flavivirus that causes neuroinvasive disease, including encephalitis, meningitis, and paralysis. Similar to other neuroinvasive flaviviruses, such as West Nile virus (WNV) and Japanese encephalitis virus (JEV), POWV disease presentation is heterogeneous, and the factors influencing disease outcome are not fully understood. We used Collaborative Cross (CC) mice to assess the impact of host genetic factors on POWV pathogenesis. We infected a panel of Oas1b-null CC lines with POWV and observed a range of susceptibility phenotypes, indicating that host factors other than the well-characterized flavivirus restriction factor Oas1b modulate POWV pathogenesis in CC mice. Among Oas1b-null CC lines, we identified multiple highly susceptible lines (0% survival), including CC071, and a single resistant line (78% survival), CC045. Susceptibility phenotypes generally were concordant among neuroinvasive flaviviruses, although we identified one line, CC006, that was resistant specifically to JEV, suggesting that both pan-flavivirus and virus-specific mechanisms contribute to susceptibility phenotypes in CC mice. We found that POWV replicated to higher titers in bone marrow-derived macrophages from CC071 mice compared to CC045 mice, suggesting that resistance could result from cell-intrinsic restriction of viral replication. Although serum viral loads at 2 days post-infection were equivalent between CC071 and CC045 mice, clearance of POWV from the serum was significantly slower in CC071 mice. Furthermore, CC045 mice had significantly lower viral loads in the brain at 7 days post-infection compared to CC071 mice, suggesting that reduced CNS infection contributes to the resistant phenotype of CC045 mice.

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