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3. Cellular Immunogenicity of Novel Gene Immunogens in Mice Monitored by in Vivo Imaging

Author

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, and Maria Isaguliants

Subjects
Biology (General), QH301-705.5, Medical technology, R855-855.5
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.

Published
2012
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4. Intranasally administered Endocine™ formulated 2009 pandemic influenza H1N1 vaccine induces broad specific antibody responses and confers protection in ferrets

Author

Anna-Karin Maltais, Gabriel P. Krestin, Edwin J. B. Veldhuis Kroeze, Albert D. M. E. Osterhaus, Hans Arwidsson, Geert van Amerongen, Alf A. Lindberg, Marcel L. Dijkshoorn, Jorma Hinkula, Koert J. Stittelaar, Virology, and Radiology & Nuclear Medicine

Subjects
Medicinska och farmaceutiska grundvetenskaper, Influenza vaccine, Cross Protection, viruses, Respiratory System, Cross Reactions, Antibodies, Viral, Antigenic drift, Virus, Virus antigen, Influenza A Virus, H1N1 Subtype, Adjuvants, Immunologic, Orthomyxoviridae Infections, SDG 3 - Good Health and Well-being, Neutralization Tests, Immunology and Microbiology(all), Medicine, Animals, Ferret, Adjuvants, Viral shedding, Computed tomography, Administration, Intranasal, Hemagglutination assay, General Veterinary, General Immunology and Microbiology, business.industry, Antibody titer, Ferrets, Klinisk medicin, Public Health, Environmental and Occupational Health, virus diseases, Basic Medicine, Hemagglutination Inhibition Tests, Viral Load, Virology, Antibodies, Neutralizing, veterinary(all), Vaccination, Infectious Diseases, Intranasal, Influenza Vaccines, Immunology, Antibody Formation, Molecular Medicine, Female, Clinical Medicine, business
Abstract

Influenza is a contagious respiratory disease caused by an influenza virus. Due to continuous antigenic drift of seasonal influenza viruses, influenza vaccines need to be adjusted before every influenza season. This allows annual vaccination with multivalent seasonal influenza vaccines, recommended especially for high-risk groups. There is a need for a seasonal influenza vaccine that induces broader and longer lasting protection upon easy administration. Endocine (TM) is a lipid-based mucosal adjuvant composed of endogenous lipids found ubiquitously in the human body. Intranasal administration of influenza antigens mixed with this adjuvant has been shown to induce local and systemic immunity as well as protective efficacy against homologous influenza virus challenge in mice. Here we used ferrets, an established animal model for human influenza virus infections, to further investigate the potential of Endocine (TM) as an adjuvant. Intranasal administration of inactivated pandemic H1N1/California/2009 split antigen or whole virus antigen mixed with Endocine (TM) induced high levels of serum hemagglutination inhibition (HI) and virus neutralization (VN) antibody titers that were also cross reactive against distant swine viruses of the same subtype. HI and VN antibody titers were already demonstrated after a single nasal immunization. Upon intratracheal challenge with a homologous challenge virus (influenza virus H1N1/The Netherlands/602/2009) immunized ferrets were fully protected from virus replication in the lungs and largely protected against body weight loss, virus replication in the upper respiratory tract and pathological changes in the respiratory tract. Endocine (TM) formulated vaccines containing split antigen induced higher HI and VN antibody responses and better protection from body weight loss and virus shedding in the upper respiratory tract than the Endocine (TM) formulated vaccine containing whole virus antigen. (C) 2014 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license

Published
2014
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5. Immunization with Multiple Vaccine Modalities Induce Strong HIV-Specific Cellular and Humoral Immune Responses

Author

Anna-Karin Maltais, Sanna Nyström, Patricia L. Earl, Andreas Bråve, Steven E. Applequist, Britta Wahren, Bernard Moss, Mary A. Marovich, David Hallengärd, and Kopek Nihlmark

Subjects
Modified vaccinia Ankara, Immunology, Immunization, Secondary, Heterologous, Priming (immunology), HIV Infections, Vaccinia virus, HIV Antibodies, Biology, complex mixtures, Viral vector, law.invention, Interferon-gamma, Mice, Immune system, Antigen, law, Virology, Vaccines, DNA, Animals, AIDS Vaccines, Mice, Inbred BALB C, Vaccines, Synthetic, Vaccination, HIV, HIV Antigens, DNA, Viral, Recombinant DNA, Interleukin-2, Molecular Medicine, Female
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.

Published
2012
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6. Comparison of Plasmid Vaccine Immunization Schedules Using IntradermalIn VivoElectroporation

Author

Britta Wahren, David Hallengärd, Andreas Bråve, B. Kristian Haller, Kopek Nihlmark, Eva Gelius, and Anna-Karin Maltais

Subjects
Microbiology (medical), Interleukin 2, animal diseases, Clinical Biochemistry, Immunology, Priming (immunology), chemical and pharmacologic phenomena, HIV Antibodies, Biology, Administration, Cutaneous, gag Gene Products, Human Immunodeficiency Virus, Interferon-gamma, Mice, Immune system, In vivo, Vaccines, DNA, medicine, Animals, Immunology and Allergy, Interferon gamma, Administration, Intranasal, Immunization Schedule, Immunity, Cellular, Mice, Inbred BALB C, Electroporation, ELISPOT, biochemical phenomena, metabolism, and nutrition, Vaccine Research, Virology, Interleukin-2, bacteria, Female, FluoroSpot, Plasmids, medicine.drug
Abstract

In vivoelectroporation (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.

Published
2011
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7. Biodistribution, persistence and lack of integration of a multigene HIV vaccine delivered by needle-free intradermal injection and electroporation

Author

G. Biberfeld, Anna-Karin Maltais, Eric Sandström, David Hallengärd, B. Kristian Haller, Urban Höglund, Richard Stout, Bo Hejdeman, Alan D. King, Britta Wahren, Andreas Bråve, Pontus Blomberg, and Lindvi Gudmundsdotter

Subjects
Male, Injections, Intradermal, Bioject, Virus Integration, HIV Infections, Article, DNA vaccination, Mice, 03 medical and health sciences, 0302 clinical medicine, Vaccines, DNA, Animals, Humans, 030212 general & internal medicine, Intradermal injection, HIV vaccine, Skin, 030304 developmental biology, AIDS Vaccines, Mice, Inbred BALB C, Vaccines, Synthetic, 0303 health sciences, General Veterinary, General Immunology and Microbiology, biology, Electroporation, Public Health, Environmental and Occupational Health, HIV, Plasmid DNA, biology.organism_classification, Virology, 3. Good health, Vaccination, Infectious Diseases, Immunization, Dermal, Lentivirus, Immunology, HIV-1, Molecular Medicine, Female, Plasmids
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.

Published
2010
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8. DNA vaccine coding for the rhesus prostate specific antigen delivered by intradermal electroporation in patients with relapsed prostate cancer

Author

Fredrik Eriksson, Jeffrey Yachnin, Anna-Karin Maltais, Pavel Pisa, and Thomas H. Tötterman

Subjects
Male, Injections, Intradermal, T-Lymphocytes, DNA vaccination, Prostate cancer, Prostate, medicine, Vaccines, DNA, Animals, Humans, Intradermal injection, Aged, General Veterinary, General Immunology and Microbiology, business.industry, Electroporation, Immunogenicity, Vaccination, Public Health, Environmental and Occupational Health, Cancer, Prostatic Neoplasms, Middle Aged, Prostate-Specific Antigen, medicine.disease, Macaca mulatta, Prostate-specific antigen, Infectious Diseases, medicine.anatomical_structure, Treatment Outcome, Immunology, Cancer research, Molecular Medicine, Immunotherapy, business
Abstract

We tested safety, clinical efficacy and immunogenicity of a DNA vaccine coding for rhesus prostate specific antigen (PSA) delivered by intradermal injection and skin electroporation. Fifteen patients with biochemical relapse of prostate cancer without macroscopic disease participated in this phase I study. Patients were started on a 1 month course of androgen deprivation therapy (ADT) prior to treatment. Vaccine doses ranged from 50 to 1,600 μg. Study subjects received five vaccinations at four week intervals. All patients have had at least one year of follow-up. No systemic toxicity was observed. Discomfort from electroporation did not require analgesia or topical anesthetic. No clinically significant changes in PSA kinetics were observed as all patients required antiandrogen therapy shortly after completion of the 5 months of vaccination due to rising PSA. Immunogenicity, as measured by T-cell reactivity to the modified PSA peptide and to a mix of overlapping PSA peptides representing the full length protein, was observed in some patients. All but one patient had pre-study PSA specific T-cell reactivity. ADT alone resulted in increases in T-cell reactivity in most patients. Intradermal vaccination with skin electroporation is easily performed with only minor discomfort for the patient. Patients with biochemical relapse of prostate cancer are a good model for testing immune therapies.

Published
2013

9. Increased expression and immunogenicity of HIV-1 protease following inactivation of the enzymatic activity

Author

Andreas Bråve, Sarah Petersson, Maria G. Isaguliants, B. Kristian Haller, David Hallengärd, Andreas Boberg, Britta Wahren, and Anna-Karin Maltais

Subjects
medicine.medical_treatment, T-Lymphocytes, chemical and pharmacologic phenomena, Enzyme-Linked Immunosorbent Assay, Mice, Transgenic, HIV Antibodies, Epitope, Virus, DNA vaccination, Mice, Immune system, HIV-1 protease, HIV Protease, medicine, Vaccines, DNA, Cytotoxic T cell, Animals, AIDS Vaccines, Mice, Inbred BALB C, Protease, General Veterinary, General Immunology and Microbiology, biology, Immunogenicity, Public Health, Environmental and Occupational Health, Virology, Mice, Inbred C57BL, Infectious Diseases, biology.protein, Molecular Medicine, Cytokines, Female, Mutant Proteins
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.

Published
2010

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