Advanced Safety and Genetic Stability in Mice of a Novel DNA-Launched Venezuelan Equine Encephalitis Virus Vaccine with Rearranged Structural Genes.
Dylan M JohnsonKevin J SokoloskiJenny D JokinenTia L PfefferYong-Kyu ChuRobert S AdcockDonghoon ChungIrina TretyakovaPeter PushkoIgor S LukashevichPublished in: Vaccines (2020)
The safety and genetic stability of V4020, a novel Venezuelan Equine Encephalitis Virus (VEEV) vaccine based on the investigational VEEV TC-83 strain, was evaluated in mice. V4020 was generated from infectious DNA, contains a stabilizing mutation in the E2-120 glycoprotein, and includes rearrangement of structural genes. After intracranial inoculation (IC), replication of V4020 was more attenuated than TC-83, as documented by low clinical scores, inflammation, viral load in brain, and earlier viral clearance. During the first 9 days post-inoculation (DPI), genes involved in inflammation, cytokine signaling, adaptive immune responses, and apoptosis were upregulated in both groups. However, the magnitude of upregulation was greater in TC-83 than V4020 mice, and this pattern persisted till 13 DPI, while V4020 gene expression profiles declined to mock-infected levels. In addition, genetic markers of macrophages, DCs, and microglia were strongly upregulated in TC-83 mice. During five serial passages in the brain, less severe clinical manifestations and a lower viral load were observed in V4020 mice and all animals survived. In contrast, 13.3% of mice met euthanasia criteria during the passages in TC-83 group. At 2 DPI, RNA-Seq analysis of brain tissues revealed that V4020 mice had lower rates of mutations throughout five passages. A higher synonymous mutation ratio was observed in the nsP4 (RdRP) gene of TC-83 compared to V4020 mice. At 2 DPI, both viruses induced different expression profiles of host genes involved in neuro-regeneration. Taken together, these results provide evidence for the improved safety and genetic stability of the experimental V4020 VEEV vaccine in a murine model.
Keyphrases
- high fat diet induced
- genome wide
- rna seq
- oxidative stress
- immune response
- single cell
- type diabetes
- metabolic syndrome
- dna methylation
- white matter
- magnetic resonance
- wild type
- spinal cord
- resting state
- spinal cord injury
- multiple sclerosis
- cell death
- brain injury
- blood brain barrier
- cell free
- circulating tumor
- genome wide identification
- study protocol
- transcription factor
- optical coherence tomography
- contrast enhanced
- phase iii