Last data update: Jan 13, 2025. (Total: 48570 publications since 2009)
Records 1-9 (of 9 Records) |
Query Trace: Lipatov AS[original query] |
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Recombinant influenza H7 hemagglutinins induce lower neutralizing antibody titers in mice than do seasonal hemagglutinins
Blanchfield K , Kamal RP , Tzeng WP , Music N , Wilson JR , Stevens J , Lipatov AS , Katz JM , York IA . Influenza Other Respir Viruses 2014 8 (6) 628-35 BACKGROUND: Vaccines against avian influenza viruses often require high hemagglutinin (HA) doses or adjuvants to achieve serological titers associated with protection against disease. In particular, viruses of the H7 subtype frequently do not induce strong antibody responses following immunization. OBJECTIVES: To evaluate whether poor immunogenicity of H7 viruses is an intrinsic property of the H7 hemagglutinin. METHODS: We compared the immunogenicity, in naive mice, of purified recombinant HA from two H7 viruses [A/Netherlands/219/2003(H7N7) and A/New York/107/2003(H7N2)] to that of HA from human pandemic [A/California/07/2009(H1N1pdm09)] and seasonal [A/Perth16/2009(H3N2)] viruses. RESULTS: After two intramuscular injections with purified hemagglutinin, mice produced antibodies to all HAs, but the response to the human virus HAs was greater than to H7 HAs. The difference was relatively minor when measured by ELISA, greater when measured by hemagglutination inhibition assays, and more marked still by microneutralization assays. H7 HAs induced little or no neutralizing antibody response in mice at either dose tested. Antibodies induced by H7 were of significantly lower avidity than for H3 or H1N1pdm09. CONCLUSIONS: We conclude that H7 HAs may be intrinsically less immunogenic than HA from seasonal human influenza viruses. |
Influenza vaccination accelerates recovery of ferrets from lymphopenia
Music N , Reber AJ , Lipatov AS , Kamal RP , Blanchfield K , Wilson JR , Donis RO , Katz JM , York IA . PLoS One 2014 9 (6) e100926 Ferrets are a useful animal model for human influenza virus infections, since they closely mimic the pathogenesis of influenza viruses observed in humans. However, a lack of reagents, especially for flow cytometry of immune cell subsets, has limited research in this model. Here we use a panel of primarily species cross-reactive antibodies to identify ferret T cells, cytotoxic T lymphocytes (CTL), B cells, and granulocytes in peripheral blood. Following infection with seasonal H3N2 or H1N1pdm09 influenza viruses, these cell types showed rapid and dramatic changes in frequency, even though clinically the infections were mild. The loss of B cells and CD4 and CD8 T cells, and the increase in neutrophils, were especially marked 1-2 days after infection, when about 90% of CD8+ T cells disappeared from the peripheral blood. The different virus strains led to different kinetics of leukocyte subset alterations. Vaccination with homologous vaccine reduced clinical symptoms slightly, but led to a much more rapid return to normal leukocyte parameters. Assessment of clinical symptoms may underestimate the effectiveness of influenza vaccine in restoring homeostasis. |
Increased immunogenicity of avian influenza DNA vaccine delivered to the skin using a microneedle patch.
Kim YC , Song JM , Lipatov AS , Choi SO , Lee JW , Donis RO , Compans RW , Kang SM , Prausnitz MR . Eur J Pharm Biopharm 2012 81 (2) 239-47 Effective public health responses to an influenza pandemic require an effective vaccine that can be manufactured and administered to large populations in the shortest possible time. In this study, we evaluated a method for vaccination against avian influenza virus that uses a DNA vaccine for rapid manufacturing and delivered by a microneedle skin patch for simplified administration and increased immunogenicity. We prepared patches containing 700-mcm long microneedles coated with an avian H5 influenza hemagglutinin DNA vaccine from A/Viet Nam/1203/04 influenza virus. The coating DNA dose increased with DNA concentration in the coating solution and the number of dip-coating cycles. Coated DNA was released into the skin tissue by dissolution within minutes. Vaccination of mice using microneedles induced higher levels of antibody responses and hemagglutination inhibition titers, and improved protection against lethal infection with avian influenza as compared to conventional intramuscular delivery of the same dose of the DNA vaccine. Additional analysis showed that the microneedle coating solution containing carboxymethylcellulose and a surfactant may have negatively affected the immunogenicity of the DNA vaccine. Overall, this study shows that DNA vaccine delivery by microneedles can be a promising approach for improved vaccination to mitigate an influenza pandemic. |
In vitro evolution of H5N1 avian influenza virus toward human-type receptor specificity.
Chen LM , Blixt O , Stevens J , Lipatov AS , Davis CT , Collins BE , Cox NJ , Paulson JC , Donis RO . Virology 2011 422 (1) 105-13 Acquisition of alpha2-6 sialoside receptor specificity by alpha2-3 specific highly-pathogenic avian influenza viruses (H5N1) is thought to be a prerequisite for efficient transmission in humans. By in vitro selection for binding alpha2-6 sialosides, we identified four variant viruses with amino acid substitutions in the hemagglutinin (S227N, D187G, E190G, and Q196R) that revealed modestly increased alpha2-6 and minimally decreased alpha2-3 binding by glycan array analysis. However, a mutant virus combining Q196R with mutations from previous pandemic viruses (Q226L and G228S) revealed predominantly alpha2-6 binding. Unlike the wild type H5N1, this mutant virus was transmitted by direct contact in the ferret model although not by airborne respiratory droplets. However, a reassortant virus with the mutant hemagglutinin, a human N2 neuraminidase and internal genes from an H5N1 virus was partially transmitted via respiratory droplets. The complex changes required for airborne transmissibility in ferrets suggest that extensive evolution is needed for H5N1 transmissibility in humans. |
Virus-like particle vaccine containing hemagglutinin confers protection against 2009 H1N1 pandemic influenza
Hossain MJ , Bourgeois M , Quan FS , Lipatov AS , Song JM , Chen LM , Compans RW , York I , Kang SM , Donis RO . Clin Vaccine Immunol 2011 18 (12) 2010-7 Immunization of the world population before an influenza pandemic such as the 2009 H1N1 spreads globally is not possible with current vaccine production platforms. New influenza vaccine technologies, such as virus-like-particles (VLP), offer a promising alternative. Here, we tested the immunogenicity and protective efficacy of a VLP vaccine containing HA and M1 from the 2009 pandemic H1N1 influenza virus (H1N1pdm) in ferrets and compared IM and IN routes of immunization. Vaccination of ferrets with VLPs containing the M1 and HA proteins from A/California/04/2009 (H1N1pdm) induced high antibody titers and conferred significant protection against virus challenge. VLP-vaccinated animals lost less weight, shed less virus in nasal washes, and had markedly lower virus titers in all organs tested than naive controls. A single dose of VLPs, either IM or IN, induced higher levels of antibody than did two doses of commercial split vaccine. Ferrets vaccinated with split vaccine were incompletely protected against challenge; these animals had lower virus titers in olfactory bulbs, tonsils, and intestines, but lost weight and shed virus in nasal washes to a similar extent as naive controls. Challenge with heterologous A/Brisbane/59/07 (H1N1) virus revealed that the VLPs conferred minimal cross-protection to heterologous infection as revealed by the lack of reduction in nasal wash and lung virus titers and slightly higher weight loss relative to controls. In summary, these experiments demonstrate the strong immunogenicity and protective efficacy of VLPs compared to the split vaccine, and show that IN vaccination with VLPs has the potential for highly efficacious vaccination against influenza. |
The virulence of 1997 H5N1 influenza viruses in the mouse model is increased by correcting a defect in their NS1 proteins
Spesock A , Malur M , Hossain MJ , Chen LM , Njaa B , Davis CT , Lipatov AS , York I , Krug RM , Donis RO . J Virol 2011 85 (14) 7048-58 The NS1 protein of human influenza A viruses binds the 30-kDa subunit of the cleavage and polyadenylation specificity factor (CPSF30), a protein required for 3' end processing of cellular pre-mRNAs, thereby inhibiting production of interferon-beta (IFN-beta) mRNA. The NS1 proteins of pathogenic 1997 H5N1 viruses contain the CPSF30-binding site, but lack the consensus amino acids at positions 103 and 106, F and M, respectively, that are required for the stabilization of CPSF30 binding, resulting in non-optimal CPSF30 binding in infected cells. Here we demonstrate that strengthening CPSF30 binding, by changing positions 103 and 106 in the 1997 H5N1 NS1 protein to the consensus amino acids, results in a remarkable 300-fold increase in the lethality of the virus in mice. Unexpectedly this increase in virulence is not associated with increased lung pathology, but rather is characterized by faster systemic spread of the virus, particularly to the brain, where increased replication and severe pathology occur. This increased spread is associated with increased cytokine and chemokine levels in extrapulmonary tissues. We conclude that strengthening CPSF30 binding by the NS1 protein of 1997 H5N1 viruses enhances virulence in mice by increasing the systemic spread of the virus from the lungs, particularly to the brain. |
Protective immunity against H5N1 influenza virus by a single dose vaccination with virus-like particles
Song JM , Hossain J , Yoo DG , Lipatov AS , Davis CT , Quan FS , Chen LM , Hogan RJ , Donis RO , Compans RW , Kang SM . Virology 2010 405 (1) 165-75 We generated influenza virus-like particles (VLPs) containing the wild type (WT) H5 hemagglutinin (HA) from A/Viet Nam/1203/04 virus or a mutant H5 HA with a deletion of the multibasic cleavage motif. VLPs containing mutant H5 HA were found to be as immunogenic as VLPs containing WT HA. A single intramuscular vaccination with either type of H5 VLPs provided complete protection against lethal challenge. In contrast, the recombinant H5 HA vaccine was less immunogenic and vaccination even with a 5 fold higher dose did not induce protective immunity. VLP vaccines were superior to the recombinant HA in inducing T helper type 1 immune responses, hemagglutination inhibition titers, and antibody secreting cells, which significantly contribute to inducing protective immunity after a single dose vaccination. This study provides insights into the potential mechanisms of improved immunogenicity by H5 VLP vaccines as an approach to improve the protective efficacy against potential pandemic viruses. |
Flexible label-free quantitative assay for antibodies to influenza virus hemagglutinins
Carney PJ , Lipatov AS , Monto AS , Donis RO , Stevens J . Clin Vaccine Immunol 2010 17 (9) 1407-16 During the initial pandemic influenza H1N1 virus outbreak, assays such as hemagglutination inhibition and microneutralization, provided important information on the relative protection afforded by the population's cross-reactivity from prior infections and immunizations with seasonal vaccines. However, these assays continue to be limited in that they are difficult to automate for high throughput, such as in pandemic situations, as well as to standardize between labs. Thus, new technologies are being sought to improve standardization, reliability and throughput by using chemically defined reagents rather than whole cells and virions. We now report the use of a cell-free and label-free flu antibody biosensor assay (f-AbBA) for influenza research and diagnostics that utilizes recombinant hemagglutinin (HA) in conjunction with label-free biolayer interferometry technology to measure biomolecular interactions between the HA and specific anti-HA antibodies or sialylated ligands. We evaluated f-AbBA to determine anti-HA antibody binding activity in serum or plasma to assess vaccine-induced humoral responses. This assay can reveal the impact of antigenic difference on antibody binding to HA and also measure binding to different subtypes of HA. We also show that the biosensor assay can measure the ability of HA to bind a model sialylated receptor-like ligand. F-AbBA could be used in global surveillance laboratories since preliminary tests on desiccated HA probes showed no loss of activity after >2 months in storage at room temperature indicating that the same reagent lots could be used in different laboratories to minimize inter-laboratory assay fluctuation. Future development of such reagents and similar technologies may offer a robust platform for future influenza surveillance activities. |
Microneedle delivery of H5N1 influenza virus-like particles to the skin induces long-lasting B and T cell responses in mice
Song JM , Kim YC , Lipatov AS , Pearton M , Davis CT , Yoo DG , Park KM , Chen LM , Quan FS , Birchall J , Donis RO , Prausnitz MR , Compans RW , Kang SM . Clin Vaccine Immunol 2010 17 (9) 1381-9 A simple method suitable for self-administration of vaccine would improve mass immunization particularly during a pandemic outbreak. Influenza virus-like particles (VLPs) have been suggested as promising vaccine candidates against potentially pandemic influenza viruses as they confer long-lasting immunity but are not infectious. We investigated the immunogenicity and protective efficacy of influenza H5 VLPs containing the hemagglutinin (HA) of A/Vietnam/1203/04 (H5N1) virus delivered into the skin of mice using metal microneedle patches, and also studied the response of Langerhans cells in a human skin model. Prime boost microneedle vaccinations with H5 VLPs elicited higher levels of virus-specific IgG1 and IgG2a antibodies, virus specific antibody secreting cells and cytokine producing cells up to 8 months after vaccination as compared to the same antigen delivered intramuscularly. Both prime boost microneedle and intramuscular vaccinations with H5 VLPs induced similar hemagglutination inhibition titers and conferred 100% protection against lethal challenge with the wild type A/Vietnam/1203/04 virus 16 weeks after vaccination. Microneedle delivery of influenza VLPs to viable human skin using microneedles induced the movement of CD207(+) Langerhans cells toward the basement membrane. Microneedle vaccination in the skin with H5 VLPs represents a promising approach for a self-administered vaccine against viruses with pandemic potential. |
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