We previously constructed a first-generation construct called HPIV3-EbovZ GP, in which the complete genome of the JS strain of HPIV3 was modified by the addition of the EBOV GP gene in the third gene position, between the HPIV3 P and M genes. The JS strain is thought to be an attenuated HPIV3, based on previous clinical studies, although the basis of this attenuation is unknown. EBOV GP is the sole EBOV virion surface protein and is the sole EBOV neutralization antigen and major protective antigen. The EBOV GP gene was engineered to have the appropriate HPIV3 transcription signals for it to be expressed as a separate mRNA by the HPIV3 polymerase. HPIV3-EbovZ GP was substantially immunogenic and protective when given to non-human primates by combined intranasal (IN) and intratracheal (IT) administration, even in animals previously infected with HPIV3. However, immunogenicity depended on IT delivery of vaccine: IN delivery alone was insufficient. This suggested that vector expression beyond the upper respiratory tract was necessary for immunogenicity. IT delivery in humans would not be feasible, but might be substituted by aerosol delivery. The aerosol route has been used by others to immunize humans in large vaccine trials, such as with the measles virus vaccine, and suitable delivery devices exist. We explored delivery of the HPIV3-EbovZ GP construct by the aerosol route in rhesus macaques. The aerosol route was generally more immunogenic and protective than the combined IN/IT route. This included generally higher serum and mucosal EBOV-specific IgG, IgA, and neutralizing antibody titers, as well as EBOV-specific cellular responses in the lungs, including polyfunctional CD8+ T cells and CD4+ T helper cells that were predominately Th1. In addition, the HPIV3-EbovZ GP vaccine produced more robust cell-mediated and humoral immune responses than an alphavirus vaccine delivered parenterally in parallel. One aerosol dose of HPIV3-EbovZ GP conferred 100% protection to macaques against EBOV challenge. We performed (with clinical collaborators at the Johns Hopkins Bloomberg School of Public Health) an open label phase 1 clinical trial to determine the safety, tolerability, and immunogenicity of HPIV3-EbovZ GP delivered IN in healthy adults in an inpatient setting (NCT025645750), which was intended to be a safety study prior to evaluating aerosol delivery. Ten subjects received two doses (4- to 8-week interval) of 6.0 log10 PFU of vaccine. The first dose was moderately infectious (7/10 subjects shed virus detected by qRT-PCR, mean peak titer 3.8 log10 genomic equivalents/ml, mean duration of shedding 7.9 days). Little shedding was detected after the second dose. A second cohort (n=20) received one of two planned doses of 7.0 log10 PFU of vaccine. Shedding was similar but of shorter duration (mean of 3.7 days). The vaccine was well tolerated, with the exception that asymptomatic ALT elevations were noted in 5 volunteers (3 mild, 2 moderate) in cohort 2 after vaccination and associated with shedding. All resolved by day 28. The study was halted due to these elevations of ALTs, but their significance is unclear. Because of this, this vaccine will not be administered further at this time. Induction of serum antibodies was poor (mucosal antibodies not yet analyzed), but this was expected since, as noted above, we had previously observed that administration by the IN route alone was poorly immunogenic in rhesus monkeys. We developed a second-generation version of this vector system in which the HPIV3 F and HN genes were deleted, leaving EBOV GP as the sole viral surface glycoprotein. This construct is called HPIV3/HNF/EbovZ GP. A large comparative study in cynomolgus monkeys by our collaborator Alexander Bukreyev at the University of Texas Medical Branch, Galveston, (who made the construct while a Staff Scientist in this laboratory) showed that this second-generation version was even more protective than the first-generation even though it was very highly restricted for replication (much more restricted than the first-generation construct). We have initiated a Phase 1 study to evaluate the safety, infectivity, and immunogenicity of two doses of the HPIV3/HNF/EbovZ GP vaccine candidate when administered intranasally in healthy adults in an inpatient setting (NCT03462004). Participants will be enrolled sequentially in two cohorts. Participants in Cohort 1 will be randomly assigned to receive two doses of either 6.0 log10 PFU/mL of HPIV3/HNF/EbovZ-GP vaccine or placebo. The first dose will be given on Day 0 and the second dose will be given 28 days later. Participants in Cohort 2 will be randomly assigned to receive two doses of either 7.0 logPFU/mL of HPIV3/HNF/EbovZ-GP vaccine or placebo on Days 0 and 28. Vaccine replication will be evaluated by nasal wash and RT-qPCR and infectivity assays, and serum antibody responses will be measured.

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2018
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Lingemann, Matthias; Liu, Xueqiao; Surman, Sonja et al. (2017) Attenuated Human Parainfluenza Virus Type 1 Expressing Ebola Virus Glycoprotein GP Administered Intranasally Is Immunogenic in African Green Monkeys. J Virol 91:
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Khattar, Sunil K; Nayak, Baibaswata; Kim, Shin-Hee et al. (2013) Evaluation of the replication, pathogenicity, and immunogenicity of avian paramyxovirus (APMV) serotypes 2, 3, 4, 5, 7, and 9 in rhesus macaques. PLoS One 8:e75456
Samal, Sweety; Khattar, Sunil K; Paldurai, Anandan et al. (2013) Mutations in the cytoplasmic domain of the newcastle disease virus fusion protein confer hyperfusogenic phenotypes modulating viral replication and pathogenicity. J Virol 87:10083-93

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