Mina C Hosseinipour1,2, Craig Innes3, Sarita Naidoo4, Philipp Mann5, Julia Hutter6, Gita Ramjee4, Modulakgotla Sebe7, Lucas Maganga8, Michael E Herce9, Allan C deCamp5, Kyle Marshall5, One Dintwe5,10, Erica Andersen-Nissen5,10, Georgia D Tomaras11, Nonhlanhla Mkhize12, Lynn Morris12, Ryan Jensen5, Maurine D Miner5, Giuseppe Pantaleo13, Song Ding14, Olivier Van Der Meeren15, Susan W Barnett16, M Juliana McElrath5, Lawrence Corey5, James G Kublin5. 1. University of North Carolina at Chapel Hill, Chapel Hill, NC, USA. 2. UNC Project-Malawi, Lilongwe, Malawi. 3. Aurum Institute, Klerksdorp, South Africa. 4. HIV Prevention Research Unit, South African Medical Research Council, Durban, South Africa. 5. Vaccine and Infectious Disease Division, Fred Hutchinson Cancer Research Center, Seattle, Washington, USA. 6. Division of AIDS, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, Maryland, USA. 7. Aurum Institute, Tembisa, South Africa. 8. NIMR-Mbeya Medical Research Center, Mbeya, Tanzania. 9. Centre for Infectious Disease Research in Zambia, Lusaka, Zambia. 10. Cape Town HVTN Immunology Laboratory, Cape Town, South Africa. 11. Duke Human Vaccine Institute, Duke University School of Medicine, Durham, North Carolina, USA. 12. National Institute for Communicable Diseases, National Health Laboratory Service, Johannesburg, South Africa. 13. Division of Immunology and Allergy, Centre Hospitalier Universitaire Vaudois, University of Lausanne, Lausanne, Switzerland. 14. EuroVacc Foundation, Lausanne, Switzerland. 15. GSK Vaccines, Rixensart, Belgium. 16. GSK Vaccines, Cambridge, Massachusetts, USA.
Abstract
BACKGROUND: The Pox-Protein Public-Private Partnership is performing a suite of trials to evaluate the bivalent subtype C envelope protein (TV1.C and 1086.C glycoprotein 120) vaccine in the context of different adjuvants and priming agents for human immunodeficiency virus (HIV) type 1 (HIV-1) prevention. METHODS: In the HIV Vaccine Trials Network 111 trial, we compared the safety and immunogenicity of DNA prime followed by DNA/protein boost with DNA/protein coadministration injected intramuscularly via either needle/syringe or a needle-free injection device (Biojector). One hundred thirty-two healthy, HIV-1-uninfected adults were enrolled from Zambia, South Africa, and Tanzania and were randomized to 1 of 6 arms: DNA prime, protein boost by needle/syringe; DNA and protein coadministration by needle/syringe; placebo by needle/syringe; DNA prime, protein boost with DNA given by Biojector; DNA and protein coadministration with DNA given by Biojector; and placebo by Biojector. RESULTS: All vaccinations were safe and well tolerated. DNA and protein coadministration was associated with increased HIV-1 V1/V2 antibody response rate, a known correlate of decreased HIV-1 infection risk. DNA administration by Biojector elicited significantly higher CD4+ T-cell response rates to HIV envelope protein than administration by needle/syringe in the prime/boost regimen (85.7% vs 55.6%; P = .02), but not in the coadministration regimen (43.3% vs 48.3%; P = .61). CONCLUSIONS: Both the prime/boost and coadministration regimens are safe and may be promising for advancement into efficacy trials depending on whether cellular or humoral responses are desired. CLINICAL TRIALS REGISTRATION: South African National Clinical Trials Registry (application 3947; Department of Health [DoH] no. DOH-27-0715-4917) and ClinicalTrials.gov (NCT02997969).
BACKGROUND: The Pox-Protein Public-Private Partnership is performing a suite of trials to evaluate the bivalent subtype C envelope protein (TV1.C and 1086.C glycoprotein 120) vaccine in the context of different adjuvants and priming agents for human immunodeficiency virus (HIV) type 1 (HIV-1) prevention. METHODS: In the HIV Vaccine Trials Network 111 trial, we compared the safety and immunogenicity of DNA prime followed by DNA/protein boost with DNA/protein coadministration injected intramuscularly via either needle/syringe or a needle-free injection device (Biojector). One hundred thirty-two healthy, HIV-1-uninfected adults were enrolled from Zambia, South Africa, and Tanzania and were randomized to 1 of 6 arms: DNA prime, protein boost by needle/syringe; DNA and protein coadministration by needle/syringe; placebo by needle/syringe; DNA prime, protein boost with DNA given by Biojector; DNA and protein coadministration with DNA given by Biojector; and placebo by Biojector. RESULTS: All vaccinations were safe and well tolerated. DNA and protein coadministration was associated with increased HIV-1 V1/V2 antibody response rate, a known correlate of decreased HIV-1 infection risk. DNA administration by Biojector elicited significantly higher CD4+ T-cell response rates to HIV envelope protein than administration by needle/syringe in the prime/boost regimen (85.7% vs 55.6%; P = .02), but not in the coadministration regimen (43.3% vs 48.3%; P = .61). CONCLUSIONS: Both the prime/boost and coadministration regimens are safe and may be promising for advancement into efficacy trials depending on whether cellular or humoral responses are desired. CLINICAL TRIALS REGISTRATION: South African National Clinical Trials Registry (application 3947; Department of Health [DoH] no. DOH-27-0715-4917) and ClinicalTrials.gov (NCT02997969).
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