Your search keyword '"prime/boost"' showing total 3 results

1. Protection of mice against the highly pathogenic VVIHD-J by DNA and fowlpox recombinant vaccines, administered by electroporation and intranasal routes, correlates with serum neutralizing activity

Author

Federica Cavallo, Antonia Radaelli, Carlo De Giuli Morghen, Massimiliano Bissa, Elena Quaglino, Carlo Zanotto, Sole Pacchioni, Valeria Rolih, and Elena Illiano

Subjects

L1R, 0301 basic medicine, Fowlpox, viruses, Cowpox, Intranasal mucosal vaccination, Biology, Virus, Fowlpox virus, L1R, A27L, A33R, B5R VV genes, OPXV vaccine, Prime/boost, Recombinant vaccines, Pharmacology, Virology, 03 medical and health sciences, Monkeypox, chemistry.chemical_compound, 0302 clinical medicine, B5R VV genes, medicine, 030212 general & internal medicine, Orthopoxvirus, virus diseases, A33R, medicine.disease, biology.organism_classification, Vaccination, 030104 developmental biology, chemistry, Immunology, Variola virus, Vaccinia, A27L

Abstract

The control of smallpox was achieved using live vaccinia virus (VV) vaccine, which successfully eradicated the disease worldwide. As the variola virus no longer exists as a natural infection agent, mass vaccination was discontinued after 1980. However, emergence of smallpox outbreaks caused by accidental or deliberate release of variola virus has stimulated new research for second-generation vaccine development based on attenuated VV strains. Considering the closely related animal poxviruses that also arise as zoonoses, and the increasing number of unvaccinated or immunocompromised people, a safer and more effective vaccine is still required. With this aim, new vectors based on avian poxviruses that cannot replicate in mammals should improve the safety of conventional vaccines, and protect from zoonotic orthopoxvirus diseases, such as cowpox and monkeypox. In this study, DNA and fowlpox (FP) recombinants that expressed the VV L1R, A27L, A33R, and B5R genes were generated (4DNAmix, 4FPmix, respectively) and tested in mice using novel administration routes. Mice were primed with 4DNAmix by electroporation, and boosted with 4FPmix applied intranasally. The lethal VVIHD-J strain was then administered by intranasal challenge. All of the mice receiving 4DNAmix followed by 4FPmix, and 20% of the mice immunized only with 4FPmix, were protected. The induction of specific humoral and cellular immune responses directly correlated with this protection. In particular, higher anti-A27 antibodies and IFNγ-producing T lymphocytes were measured in the blood and spleen of the protected mice, as compared to controls. VVIHD-J neutralizing antibodies in sera from the protected mice suggest that the prime/boost vaccination regimen with 4DNAmix plus 4FPmix may be an effective and safe mode to induce protection against smallpox and poxvirus zoonotic infections. The electroporation/intranasal administration routes contributed to effective immune responses and mouse survival.

Published

2016

2. Replicating adenovirus HIV/SIV recombinant priming alone or in combination with a gp140 protein boost results in significant control of viremia following a SHIV89.6P challenge in Mamu-A⁎01 negative rhesus macaques

Author

Jennifer Beal, David C. Montefiori, David Venzon, Nina Malkevich, Eun Mi Lee, L. Jean Patterson, Kris Aldrich, Vaniambadi S. Kalyanaraman, Thorsten Demberg, Ersell Richardson, Irene Kalisz, Ruth H. Florese, Frank A. Robey, and Marjorie Robert-Guroff

Subjects

Male, Cellular immunity, HIV/SIV vaccines, SHIV89.6P challenge, T-Lymphocytes, viruses, medicine.medical_treatment, Genetic Vectors, Immunization, Secondary, Simian Acquired Immunodeficiency Syndrome, Replicating adenovirus vectors, Priming (immunology), HIV Infections, Viremia, HIV Antibodies, Virus Replication, Adenoviridae, law.invention, law, Virology, medicine, Animals, Humans, AIDS Vaccines, Recombination, Genetic, Antibody-dependent cell-mediated cytotoxicity, Rhesus macaques, biology, Histocompatibility Antigens Class I, prime/boost, SAIDS Vaccines, env Gene Products, Human Immunodeficiency Virus, virus diseases, medicine.disease, Macaca mulatta, medicine.anatomical_structure, Immunology, HIV-1, Recombinant DNA, biology.protein, Immunization, Simian Immunodeficiency Virus, Antibody, Memory T cell, Adjuvant

Abstract

Previously, replicating adenovirus type 5 host range (Ad5hr)-HIV/SIV recombinant priming in combination with SIV envelope boosting, resulted in significant, durable protection in 39% of rhesus macaques after SIV mac251 challenge. Both Env-specific antibody mediating ADCC, and cellular immunity correlated with protection. Here we evaluate the relative immunogenicities of novel HIV proteins and their contribution to protection in a SHIV 89.6P model. All groups were primed with Ad-HIV env 89.6P , SIV gag 239 , and SIV nef 239 recombinants. One group was not boosted, one received HIV 89.6P gp140ΔCFI protein, and one a novel HIV-1 poly-peptide “peptomer”. The HIV 89.6P gp140ΔCFI protein in adjuvant strongly boosted Env-specific antibody and memory T cell responses in blood and tissue, resulting in significant reductions in acute and set point viremia. Macaques not boosted, showed a significant reduction in set point viremia, a full 32 weeks after the last Ad priming immunization. The HIV peptomer-boosted group showed a trend toward chronic viremia reduction, but was not protected.

Published

2008

3. DNA prime Listeria boost induces a cellular immune response to SIV antigens in the rhesus macaque model that is capable of limited suppression of SIV239 viral replication

Author

Mark G. Lewis, Anding Shen, Jean D. Boyer, Ross S. Johnson, Xiaohui Peng, Robert F. Siliciano, Charles R. Brown, David B. Weiner, Paulo Cesar Maciag, George N. Pavlakis, Tara M. Robinson, and Yvonne Paterson

Subjects

Male, DNA vaccine, Time Factors, animal diseases, Genetic Vectors, Immunization, Secondary, Gene Products, gag, Biology, Antibodies, Viral, DNA vaccination, law.invention, Immune system, Viral Envelope Proteins, Antigen, law, HIV/SIV vaccine, Virology, Vaccines, DNA, Animals, Antigens, Viral, Immunity, Cellular, Vaccines, Synthetic, Organisms, Genetically Modified, ELISPOT, SAIDS Vaccines, Viral Load, biology.organism_classification, Macaca mulatta, Listeria monocytogenes, Vaccination, Rhesus macaque, Viral replication, DNA, Viral, Immunology, Recombinant DNA, Female, Simian Immunodeficiency Virus, Lymph Nodes, Prime/boost

Abstract

DNA vaccines and recombinant Listeria monocytogenes that express and secrete SIV Gag and Env antigens were combined in a nonhuman primate prime-boost immunogenicity study followed by a challenge with SIV239. We report that recombinant DNA vaccine delivered intramuscularly, and recombinant L. monocytogenes delivered orally each individually have the ability to induce CD8+ and CD4+ T cell immune responses in a nonhuman primate. Four rhesus monkeys were immunized at weeks 0, 4, 8, and 12 with the pCSIVgag and pCSIVenv DNA plasmids and boosted with SIV expressing L. monocytogenes vaccines at weeks 16, 20, and 28. Four rhesus monkeys received only the L. monocytogenes vaccines at weeks 16, 20, and 28. A final group of monkeys served as a control group. Blood samples were taken before vaccination and 2 weeks post each injection and analyzed by ELISPOT for CD4+ and CD8+ T cell responses. Moderate vaccine induced SIV-specific cellular immune responses were observed following immunization with either DNA or L. monocytogenes vectors. However, the SIV antigen-specific immune responses were significantly increased when Rhesus macaques were primed with SIV DNA vaccines and boosted with the SIV expressing L. monocytogenes vectors. In addition, the combined vaccine was able to impact SIV239 viral replication following an intrarectal challenge. This study demonstrates for the first time that oral L. monocytogenes can induce a cellular immune response in a nonhuman primate and is able to enhance the efficacy of a DNA vaccine as well as provide modest protection against SIV239 challenge.

Published

2005