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ABSTRACT: Abstract Besides being an important target in the antiretroviral therapy against the human immunodeficiency virus type 1 (HIV-1), the HIV-1 reverse transcriptase (RT) enzyme has potential as a vaccine antigen. In this study, we explored the ability of plasmid-encoded RT to induce cell-mediated immune responses. The strategy for increasing the immunogenicity of the protein was to delete non- or low-immunogenic parts in order to focus the immune responses to known immunogenic regions. Expression and immunogenicity of the truncated RT was compared to a clinically evaluated full-length RT construct, and the truncated RT displayed enhanced in vitro expression and cell-mediated immune responses in BALB/c and HLA-A0201 transgenic C57BL/6 mice. The strong immune responses were retained also when the truncated RT was delivered as a part of a multigene HIV-1 vaccine. Linking the RT gene to a highly expressed HIV-1 protease gene did not increase the immunogenicity of RT. This optimization strategy could be used to enhance the immunogenicity of other RT-encoding DNA vaccines.
Viral immunology 04/2013; 26(2):163-6. · 1.78 Impact Factor
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Elizaveta Starodubova,
Olga Krotova,
David Hallengärd,
Yulia Kuzmenko,
Gunnel Engström,
Diana Legzdina,
Oleg Latyshev,
Olesja Eliseeva,
Anna Karin Maltais,
Vera Tunitskaya,
Vadim Karpov, Andreas Bråve,
Maria Isaguliants
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ABSTRACT: The efficient cell-mediated immune response clears cells expressing deoxyribonucleic acid (DNA) immunogens, but there are no methods to monitor this in vivo. We hypothesized that immune-mediated clearance can be monitored in vivo if DNA immunogens are coexpressed with reporter(s). To test this, we designed genes encoding human immunodeficiency virus 1 (HIV-1) reverse transcriptase (RT) fused via its N- or C-terminus to 30-amino acid-long Gly-Ala-repeat of Epstein-Barr virus nuclear antigen 1 or via the N-terminus to the transport signal of invariant chain/Ii or inserted between the cytoplasmic and luminal domains of lysosome-associated membrane protein I (LAMP). DNA immunogens mixed with luciferase gene were injected into BALB/c mice with subsequent electroporation. Reporter expression seen as luminescence was monitored by in vivo imaging. When luminescence faded, mice were sacrificed, and their splenocytes were stimulated with RT-derived antigens. Fading of luminescence correlated with the RT-specific secretion of interferon-γ and interleukin-2. Both immune and in vivo imaging techniques concordantly demonstrated an enhanced immunogenicity of RT-LAMP and of the N-terminal Gly-Ala-RT fusion genes. In vivo imaging performed as an animal-sparing method to estimate the overall performance of DNA immunogens, predicting it early in the experiment. So far, in vivo imaging cannot be a substitute for conventional immune assays, but it is supplementary to them. Further experiments are needed to identify which arms of cellular immune response in vivo imaging monitors best.
Molecular Imaging 12/2012; 11(6):471-86. · 3.18 Impact Factor
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ABSTRACT: Abstract Heterologous priming and boosting with antigens expressed by DNA, viral vectors, or as proteins, are experimental strategies to induce strong immune responses against infectious diseases and cancer. In a preclinical study we compared the ability of recombinant modified vaccinia Ankara encoding HIV antigens (MVA-CMDR), and/or recombinant gp140C (rgp140C), to boost responses induced by a multigene/multisubtype HIV DNA vaccine delivered by electroporation (EP). Homologous DNA immunizations augmented by EP stimulated strong cellular immune responses. Still stronger cellular immune responses were observed after DNA priming and MVA-CMDR boosting, which was superior to all other immunization schedules tested in terms of antigen-specific IFN-γ, IL-2, and bifunctional IFN-γ and IL-2 responses. For HIV Env-specific antibody responses, mice receiving repeated rgp140C immunizations, and mice boosted with rgp140C, elicited the highest binding titers and the highest numbers of antibody-secreting B cells. When considering both cellular and humoral immune responses, a combination of DNA, MVA-CMDR, and rgp140C immunizations induced the overall most potent immune responses and the highest avidity of HIV Env-specific antibodies. These data emphasize the importance of including multiple vaccine modalities that can stimulate both T and B cells, and thus elicit strong and balanced immune responses. The present HIV vaccine combination holds promise for further evaluation in clinical trials.
Viral immunology 10/2012; 25(5):423-432. · 1.78 Impact Factor
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ABSTRACT: BACKGROUND: The use of optimized delivery devices has been shown to enhance the potency of DNA vaccines. However, further optimization of DNA vaccine delivery is needed for this vaccine modality to ultimately be efficacious in humans. METHODS: Herein we evaluated antigen expression and immunogenicity after intradermal delivery of different doses of DNA vaccines by needle or by the Biojector jet-injection device, with or without the addition of electroporation (EP). RESULTS: Neither needle injection augmented by EP nor Biojector alone could induce higher magnitudes of immune responses after immunizations with a high dose of a DNA vaccine as compared to immunizations with a considerably lower dose. Biojector delivery followed by EP, however, overcame this observed dose restriction and induced significantly higher cellular and humoral immune responses after immunization with a high dose of DNA. Furthermore, a close correlation between in vivo antigen expression and cell-mediated immune responses was observed. CONCLUSIONS: These results show that two optimized DNA vaccine delivery devices can act together to overcome dose restrictions of plasmid DNA vaccines.
Genetic Vaccines and Therapy 08/2012; 10(1):5. · 2.10 Impact Factor
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Retrovirology 01/2012; 9(suppl2):P336. · 6.47 Impact Factor
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Muhammad Bakari,
Said Aboud,
Charlotta Nilsson,
Joel Francis,
Deus Buma,
Candida Moshiro,
Eric A Aris,
Eligius F Lyamuya,
Mohamed Janabi,
Karina Godoy-Ramirez, [......],
Victoria R Polonis, Andreas Bråve,
Patricia Earl,
Merlin Robb,
Mary Marovich,
Britta Wahren,
Kisali Pallangyo,
Gunnel Biberfeld,
Fred Mhalu,
Eric Sandström
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ABSTRACT: We conducted a phase I/II randomized placebo-controlled trial with the aim of exploring whether priming with a low intradermal dose of a multiclade, multigene HIV-1 DNA vaccine could improve the immunogenicity of the same vaccine given intramuscularly prior to boosting with a heterologous HIV-1 MVA among healthy adults in Dar es Salaam, Tanzania.
Sixty HIV-uninfected volunteers were randomized to receive DNA plasmid vaccine 1mg intradermally (id), n=20, or 3.8mg intramuscularly (im), n=20, or placebo, n=20, using a needle-free injection device. DNA plasmids encoding HIV-1 genes gp160 subtype A, B, C; rev B; p17/p24 gag A, B and Rtmut B were given at weeks 0, 4 and 12. Recombinant MVA (10(8)pfu) expressing HIV-1 Env, Gag, Pol of CRF01_AE or placebo was administered im at month 9 and 21.
The vaccines were well tolerated. Two weeks after the third HIV-DNA injection, 22/38 (58%) vaccinees had IFN-γ ELISpot responses to Gag. Two weeks after the first HIV-MVA boost all 35 (100%) vaccinees responded to Gag and 31 (89%) to Env. Two to four weeks after the second HIV-MVA boost, 28/29 (97%) vaccinees had IFN-γ ELISpot responses, 27 (93%) to Gag and 23 (79%) to Env. The id-primed recipients had significantly higher responses to Env than im recipients. Intracellular cytokine staining for Gag-specific IFN-γ/IL-2 production showed both CD8(+) and CD4(+) T cell responses. All vaccinees had HIV-specific lymphoproliferative responses. All vaccinees reacted in diagnostic HIV serological tests and 26/29 (90%) had antibodies against gp160 after the second HIV-MVA boost. Furthermore, while all of 29 vaccinee sera were negative for neutralizing antibodies against clade B, C and CRF01_AE pseudoviruses in the TZM-bl neutralization assay, in a PBMC assay, the response rate ranged from 31% to 83% positives, depending upon the clade B or CRF01_AE virus tested.
This vaccine approach is safe and highly immunogenic. Low dose, id HIV-DNA priming elicited higher and broader cell-mediated immune responses to Env after HIV-MVA boost compared to a higher HIV-DNA priming dose given im. Three HIV-DNA priming immunizations followed by two HIV-MVA boosts efficiently induced Env-antibody responses.
Vaccine 08/2011; 29(46):8417-28. · 3.77 Impact Factor
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ABSTRACT: In vivo electroporation (EP) has proven to significantly increase plasmid transfection efficiency and to augment immune responses after immunization with plasmids. In this study, we attempted to establish an immunization protocol using intradermal (i.d.) EP. BALB/c mice were immunized with a plasmid encoding HIV-1 p37Gag, either i.d. with the Derma Vax EP device, intramuscularly (i.m.) without EP, or with combinations of both. A novel FluoroSpot assay was used to evaluate the vaccine-specific cellular immune responses. The study showed that i.d. EP immunizations induced stronger immune responses than i.m. immunizations using a larger amount of DNA and that repeated i.d. EP immunizations induced stronger immune responses than i.m. priming followed by i.d. EP boosting. Two and three i.d. EP immunizations induced immune responses of similar magnitude, and a short interval between immunizations was superior to a longer interval in terms of the magnitude of cellular immune responses. The FluoroSpot assay allowed for the quantification of vaccine-specific cells secreting either gamma interferon (IFN-γ), interleukin-2 (IL-2), or both, and the sensitivity of the assay was confirmed with IFN-γ and IL-2 enzyme-linked immunosorbent spot (ELISpot) assays. The data obtained in this study can aid in the design of vaccine protocols using i.d. EP, and the results emphasize the advantages of the FluoroSpot assay over traditional ELISpot assay and intracellular staining for the detection and quantification of bifunctional vaccine-specific immune responses.
Clinical and vaccine immunology: CVI 07/2011; 18(9):1577-81. · 2.37 Impact Factor
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ABSTRACT: Plasmid DNA vaccination using skin electroporation (EP) is a promising method able to elicit robust humoral and CD8(+) T-cell immune responses while limiting invasiveness of delivery. However, there is still only limited data available on the induction of CD4(+) T-cell immunity using this method. Here, we compare the ability of homologous prime/boost DNA vaccinations by skin EP and intramuscular (i.m.) injection to elicit immune responses by cytokine enzyme-linked immunosorbent spot (ELISPOT) assay, as well as study the complexity of CD4(+) T-cell responses to the human immunodeficiency virus antigen Gag, using multiparamater flow cytometry. We find that DNA vaccinations by skin EP and i.m. injection are capable of eliciting both single- and poly-functional vaccine-specific CD4(+) T cells. However, although DNA delivered by skin EP was administered at a five-fold lower dose it elicited significant increases in the magnitude of multiple-cytokine producers compared with i.m. immunization suggesting that the skin EP could provide greater poly-functional T-cell help, a feature associated with successful immune defense against infectious agents.
Immunology and Cell Biology 03/2011; 89(3):492-6. · 3.66 Impact Factor
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ABSTRACT: HIV-1 protease is an important target for anti-HIV therapy but has not received much attention as a vaccine antigen. To investigate the immunogenic properties of HIV-1 protease, we designed DNA plasmids encoding variants of the protease gene. Mutations resulting in enzymatic inactivation (D25N) and resistance to standard antiretroviral drugs (V82F/I84V) were introduced in order to examine the impact of the enzymatic activity on immunogenicity and the possibility to induce immune responses against drug resistant protease, respectively. The enzymatic inactivation of protease resulted in significantly increased in vitro expression as well as in vivo immunogenicity. The inactivated protease was highly immunogenic in both BALB/c and HLA-A0201 transgenic C57Bl/6 mice, and the immunogenicity was retained when the gene was delivered as a part of a multigene HIV-1 DNA vaccine. The drug resistance mutations hampered both the cellular and humoral immune responses, as the mutations also affect both CD4 and CD8 T cell epitopes. Taken together, our data demonstrates the possibility to drastically increase the immunogenicity of HIV-1 protease.
Vaccine 01/2011; 29(4):839-48. · 3.77 Impact Factor
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Paolo Palma,
Maria Luisa Romiti,
Giuseppina Li Pira,
Carla Montesano,
Nadia Mora,
Angela Aquilani,
Veronica Santilli,
Hyppolite K Tchidjou,
Federico Ivaldi,
Luigi Giovannelli,
Giuseppe Pontrelli,
Giada Borra,
Pontus Blomberg,
Lindvi Gudmundsdotter, Andreas Bråve,
Marco Montano,
Stefania Bernardi,
Fabrizio Manca,
Britta Wahren,
Paolo Rossi
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ABSTRACT: The PEDVAC study is the first trial designed to analyze safety and immunogenicity of a therapeutic vaccination with a multiclade multigene HIV DNA vaccine (HIVIS) in infected children. Twenty HIV-1 vertically infected children (6-16 years of age), on stable antiretroviral treatment for at least 6 months with HIV-1 RNA<50 copies/ml and stable CD4 counts (> 400 cells/mm³ or 25%) over 12 months of follow-up, were recruited into the study. Enrolled patients have been randomized into two arms: a control group of 10 children who continued previous antiretroviral treatment (HAART) (arm A) and a group of 10 children immunized intramuscularly with the HIVIS DNA vaccine in addition to previous HAART (arm B). Immunizations took place at week 0, 4, 12 and the boosting dose is planned at week 36. The 10 children in the vaccine group have received the first 3 priming doses of the HIVIS vaccine. Safety data showed good tolerance to the vaccination schedule. Mild cutaneous self-limeted reactions consisted of local irritation, usually itching or erythema +/- swelling at the injection site, were reported. No severe systemic adverse events have been observed. No vaccinated children had a decrease of CD4 T-cell counts from baseline. None experienced virological failure. Analysis of cellular immune responses was scheduled at week 0, 4, 12, 16, 20, 40, 60, 72 and 96 by standard lymphoproliferation assay, intracellular cytokine staining and cell-ELISA, a miniaturized assay to measure antigen-induced IFNγ secretion. Evaluation of these results is in progress and will provide key information on the status and changes of antigen specific immunity during HIV DNA immunization.
Vaccine 01/2011; 29(39):6810-6. · 3.77 Impact Factor
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Andreas Bråve,
Lindvi Gudmundsdotter,
Eric Sandström,
B Kristian Haller,
David Hallengärd,
Anna-Karin Maltais,
Alan D King,
Richard R Stout,
Pontus Blomberg,
Urban Höglund,
Bo Hejdeman,
Gunnel Biberfeld,
Britta Wahren
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ABSTRACT: It is likely that gene-based vaccines will enter the human vaccine area soon. A few veterinary vaccines employing this concept have already been licensed, and a multitude of clinical trials against infectious diseases or different forms of cancer are ongoing. Highly important when developing novel vaccines are the safety aspects and also new adjuvants and delivery techniques needs to be carefully investigated so that they meet all short- and long-term safety requirements. One novel in vivo delivery method for plasmid vaccines is electroporation, which is the application of short pulses of electric current immediately after, and at the site of, an injection of a genetic vaccine. This method has been shown to significantly augment the transfection efficacy and the subsequent vaccine-specific immune responses. However, the dramatic increase in delivery efficacy offered by electroporation has raised concerns of potential increase in the risk of integration of plasmid DNA into the host genome. Here, we demonstrate the safety and lack of integration after immunization with a high dose of a multigene HIV-1 vaccine delivered intradermally using the needle free device Biojector 2000 together with electroporation using Derma Vax™ DNA Vaccine Skin Delivery System. We demonstrate that plasmids persist in the skin at the site of injection for at least four months after immunization. However, no association between plasmid DNA and genomic DNA could be detected as analyzed by qPCR following field inversion gel electrophoresis separating heavy and light DNA fractions. We will shortly initiate a phase I clinical trial in which healthy volunteers will be immunized with this multiplasmid HIV-1 vaccine using a combination of the delivery methods jet-injection and intradermal electroporation.
Vaccine 10/2010; 28(51):8203-9. · 3.77 Impact Factor
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ABSTRACT: Heterologous boost immunisation is considered the most efficient way to enhance DNA-primed immune responses. We have previously shown that administration of recombinant carcinoembryonic antigen (CEA) efficiently boosts humoral responses in mice primed with CEA DNA. However, clinical grade recombinant proteins are far more intriguing to produce than plasmid DNA. Therefore, the possibility to use plasmid DNA for both priming and boosting would be beneficial. With the prospect of future use in a clinical trial, we investigated if electroporation-mediated delivery of DNA could be used to boost DNA-primed immune responses to CEA. The Biojector was used to prime BALB/c mice intradermally three times with CEA66 DNA, encoding an intracellular modified form of CEA. Twelve weeks after the last prime, the animals received either one injection of recombinant CEA or one intradermal injection of twtCEA DNA, encoding the wild type CEA fused to a tetanus T helper epitope, in combination with electroporation. Boosting with rCEA protein did not enhance T cell responses to CEA but induced CEA-specific IgG in 4 of 8 mice. In contrast, intradermal delivery of twtCEA DNA by electroporation led to a tenfold increase in IFN-gamma-producing CD8+ T cells, compared to the levels obtained after the third priming immunisation. The DNA boost also induced high CEA-specific IgG titers in all immunised animals (8/8). The data suggests that a late DNA boost, in combination with enhanced DNA delivery by electroporation, could be used to enhance the efficiency of DNA vaccination and substitute for a heterologous protein boost vaccination.
Vaccine 06/2009; 27(28):3692-6. · 3.77 Impact Factor
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ABSTRACT: Electrical pulses have been used to enhance uptake of molecules into living cells for decades. This technique, often referred to as electroporation, has become an increasingly popular method to enhance in vivo DNA delivery for both gene therapy applications as well as for delivery of vaccines against both infectious diseases and cancer. In vivo electrovaccination (gene delivery followed by electroporation) is currently being investigated in several clinical trials, including DNA delivery to healthy volunteers. However, the mode of action at molecular level is not yet fully understood.
This study investigates intradermal DNA electrovaccination in detail and describes the effects on expression of the vaccine antigen, plasmid persistence and the local tissue environment. Gene profiling of the vaccination site showed that the combination of DNA and electroporation induced a significant up-regulation of pro-inflammatory genes. In vivo imaging of luciferase activity after electrovaccination demonstrated a rapid onset (minutes) and a long duration (months) of transgene expression. However, when the more immunogenic prostate specific antigen (PSA) was co-administered, PSA-specific T cells were induced and concurrently the luciferase expression became undetectable. Electroporation did not affect the long-term persistence of the PSA-expressing plasmid.
This study provides important insights to how DNA delivery by intradermal electrovaccination affects the local immunological responses of the skin, transgene expression and clearance of the plasmid. As the described vaccination approach is currently being evaluated in clinical trials, the data provided will be of high significance.
PLoS ONE 01/2009; 4(9):e7226. · 4.09 Impact Factor
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ABSTRACT: We show here that it is possible to combine two different genetic immunogens, one designed to induce HIV-1 specific humoral immune responses (pKCMVgp160B) and one designed to induce cellular anti-HIV-1 immune responses (Auxo-GTU-MultiHIV), and still retain the major properties of both vaccine constructs. The two different constructs were delivered using two different methods; the gene-gun and the Biojector, which both are needle-free devices. In BALB/c mice we were able to induce high levels of HIV-1-specific T cell responses as well as high levels of anti-gp160 antibodies by co-administrating the vaccine constructs. The cellular immune responses, but not antibody responses, were moderately compromised from the combination. This study shows that it is a feasible strategy to combine different vaccines and modes of delivery, but that interference as to magnitude may occur to certain gene products.
Vaccine 12/2008; 27(2):184-6. · 3.77 Impact Factor
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ABSTRACT: Development of transgenic edible plants, to be used as production, storage and delivery systems for recombinant vaccine antigens, is a promising strategy to obtain cost effective vaccines against infectious diseases, not least for use in developing countries. Therefore, we used Agrobacterium tumefaciens-mediated gene transfer to introduce the p24 gag gene encoding the nucleocapsid protein from HIV-1 subtype C into the Arabidopsis thaliana plant genome. Eighteen plant lines were confirmed positive for the p24 gene by PCR; four of these lines showed an apparent homozygous phenotype when grown on selective medium and these lines also showed transcription of the p24 gene into its corresponding mRNA. The mRNA in all four cases generated the p24 protein in plants, as verified by Western blot analysis. The plants were shown to contain between 0.2 mug and 0.5 mug p24 protein per g of fresh tissue. Analysis of the localisation of the p24 protein showed that stem tissue contained the largest amount of protein, more than twice as much as leaf tissue, whereas no p24 protein was detected in roots. By using Southern blotting, we found that 4, 2-3, 2 and 1 T-DNA insertion events took place in the four lines 1, 2, 7, and 10, respectively. The genetic insertions of line 1 were stable from the T(2) to the T(5) generation and gave rise to the p24 protein in all cases, as verified by Western blotting. In mice fed with fresh transgenic A. thaliana (line 10), anti-gag IgG was obtained in serum after a booster injection with recombinant p37Gag. No immune response was observed after equal booster injection of untreated mice or mice fed with A. thaliana WT plants.
Apmis 12/2008; 116(11):985-94. · 1.99 Impact Factor
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Eric Sandström,
Charlotta Nilsson,
Bo Hejdeman, Andreas Bråve,
Göran Bratt,
Merlin Robb,
Josephine Cox,
Thomas Vancott,
Mary Marovich,
Richard Stout, [......],
Muhammad Bakari,
Kisali Pallangyo,
Karl Ljungberg,
Bernard Moss,
Patricia Earl,
Nelson Michael,
Deborah Birx,
Fred Mhalu,
Britta Wahren,
Gunnel Biberfeld
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ABSTRACT: A human immunodeficiency virus (HIV) vaccine that limits disease and transmission is urgently needed. This clinical trial evaluated the safety and immunogenicity of an HIV vaccine that combines a plasmid-DNA priming vaccine and a modified vaccinia virus Ankara (MVA) boosting vaccine.
Forty healthy volunteers were injected with DNA plasmids containing gp160 of HIV-1 subtypes A, B, and C; rev B; p17/p24 gag A and B, and RTmut B by use of a needle-free injection system. The vaccine was administered intradermally or intramuscularly, with or without recombinant granulocyte macrophage colony-stimulating factor, and boosted with a heterologous MVA containing env, gag, and pol of CRF01A_E. Immune responses were monitored with HIV-specific interferon (IFN)-gamma and interleukin (IL)-2 ELISpot and lymphoproliferative assays (LPAs).
Vaccine-related adverse events were mild and tolerable. After receipt of the DNA priming vaccine, 11 (30%) of 37 vaccinees had HIV-specific IFN-gamma responses. After receipt of the MVA boosting vaccine, ELISpot assays showed that 34 (92%) of 37 vaccinees had HIV-specific IFN-gamma responses, 32 (86%) to Gag and 24 (65%) to Env. IFN-gamma production was detected in both the CD8(+) T cell compartment (5 of 9 selected vaccinees) and the CD4(+) T cell compartment (9 of 9). ELISpot results showed that 25 (68%) of 37 vaccinees had a positive IL-2 response and 35 (92%) of 38 had a positive LPA response. Of 38 subjects, a total of 37 (97%) were responders. One milligram of HIV-1 DNA administered intradermally was as effective as 4 mg administered intramuscularly in priming for the MVA boosting vaccine.
This HIV-DNA priming-MVA boosting approach is safe and highly immunogenic.
International Standard Randomised Controlled Trial number: ISRCTN32604572 .
The Journal of Infectious Diseases 10/2008; 198(10):1482-90. · 6.41 Impact Factor
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ABSTRACT: This study was designed to determine the impact of maternal HIV-1 specific immunity on HIV-DNA immunization of 2-week-old pups during the breast-feeding period. Adult female mice received intranasal or intradermal HIV-DNA (gp160Env, p37Gag, Nef, Tat and Rev) prime and recombinant protein boost immunizations, which induced mucosal and systemic HIV-1 specific B and T cell responses. Intranasal administration of the immunogens induced higher serum IgG titers to HIV antigens than intradermal immunization. Furthermore, high HIV-1 specific fecal IgA titers were obtained in mice immunized by intranasal administration. The capacity to respond to the same immunogens (one single prime with DNA and one boost with recombinant protein) was then compared in pups born to mothers with HIV-1-specific immune responses and pups born to non-vaccinated mothers. Immune responses to the largest number of antigens were detected in pups born to mothers with the highest HIV-1-specific immune responses. These data show that HIV-1 DNA-plasmid immunization during breast-feeding and recombinant protein boosting shortly thereafter enhance the breadth of humoral HIV-1-specific immune responses.
Vaccine 10/2008; 26(47):5957-66. · 3.77 Impact Factor
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ABSTRACT: One of the major challenges for the development of an HIV vaccine is to induce potent virus-specific immune responses at the mucosal surfaces where transmission of virus occurs. Intranasal delivery of classical vaccines has been shown to induce good mucosal antibody responses, but so far for genetic vaccines the success has been limited. This study shows that young individuals are sensitive to nasal immunization with a genetic vaccine delivered in a formulation of a lipid adjuvant, the Eurocine N3. Intranasal delivery of a multiclade/multigene HIV-1 genetic vaccine gave rise to vaginal and rectal IgA responses as well as systemic humoral and cellular responses. As electroporation might become the preferred means of delivering genetic vaccines for systemic HIV immunity, nasal delivery by droplet formulation in a lipid adjuvant might become a means of priming or boosting the mucosal immunity.
Vaccine 05/2008; 26(40):5075-8. · 3.77 Impact Factor
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ABSTRACT: HIV-1 only infects humans and chimpanzees. SIV or SHIV are, therefore, used as models for HIV in rhesus, cynomologus and pigtail macaques. Since conducting experiments in primate models does not fully mimic infection or vaccination against HIV-1 and is expensive, there is a great need for small-animal models in which it is possible to study HIV-1 infection, immunity and vaccine efficacy. This review summarizes the available murine models for studying HIV-1 infection with an emphasis on our experience of the HIV-1-infected-cell challenge as a model for evaluating candidate HIV-1 vaccines. In the cell-based challenge model, several important factors that, hopefully, can be related to vaccine efficacy in humans were discovered: the efficiency of combining plasmid DNA representing several of the viral genes originating from multiple clades of HIV-1, the importance of adjuvants activating innate and induced immunity and the enhanced HIV eradication by drug-conjugated antibody.
Expert Review of Vaccines 03/2008; 7(1):117-30. · 4.25 Impact Factor
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ABSTRACT: Pre-clinical HIV-1 vaccine protocols, using multiple vaccine modalities and a potent adjuvant were assessed for vaccine efficacy in an experimental HIV-1 challenge model. C57Bl/6 mice were immunized with DNA plasmids encoding HIV-1 gp140, Gag and Tat alone or in combination with the corresponding recombinant proteins formulated in the adjuvant MF59. HIV-1 DNA alone or a DNA prime protein boost schedule resulted in complete protection against challenge with HIV-1/MuLV-infected murine cells. Although HIV-1 protein immunization in combination with MF59 resulted in partial protection, the DNA priming seemed to be crucial for obtaining full protection against the challenge. It is likely that the partial protection seen after immunization with protein alone is, to a certain extent, due to effects of the adjuvant since some animals that received the adjuvant MF59 alone were protected from the challenge. For the most part, antigen-specific cell-mediated immune responses as detected in the spleen (in contrast to responses detected in peripheral blood) of immunized animals appeared to be associated with protection in this study.
Vaccine 10/2007; 25(39-40):6882-90. · 3.77 Impact Factor
