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Stepanova E, Isakova-Sivak I, Mezhenskaya D, Niskanen S, Matyushenko V, Bazhenova E, Rak A, Wong PF, Prokopenko P, Kotomina T, Krutikova E, Legotskiy S, Neterebskii B, Ostroukhova T, Sivak K, Orshanskaya Y, Yakovlev K, Rudenko L. Expression of the SARS-CoV-2 receptor-binding domain by live attenuated influenza vaccine virus as a strategy for designing a bivalent vaccine against COVID-19 and influenza. Virol J 2024; 21:82. [PMID: 38589848 PMCID: PMC11003101 DOI: 10.1186/s12985-024-02350-w] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/09/2024] [Accepted: 03/22/2024] [Indexed: 04/10/2024] Open
Abstract
Influenza and SARS-CoV-2 are two major respiratory pathogens that cocirculate in humans and cause serious illness with the potential to exacerbate disease in the event of co-infection. To develop a bivalent vaccine, capable of protecting against both infections, we inserted the receptor-binding domain (RBD) of the SARS-CoV-2 spike protein into hemagglutinin (HA) molecule or into the open reading frame of the truncated nonstructural protein 1 (NS1) of live attenuated influenza vaccine (LAIV) virus and assessed phenotypic characteristics of the rescued LAIV-RBD viruses, as well as their immunogenicity in mouse and Syrian hamster animal models. A panel of 9 recombinant LAIV-RBD viruses was rescued using the A/Leningrad/17 backbone. Notably, only two variants with RBD insertions into the HA molecule could express sufficient quantities of RBD protein in infected MDCK cells. Intranasal immunization of mice induced high levels of anti-influenza antibody responses in all chimeric LAIV-RBD viruses, which was comparable to the LAIV virus vector. The RBD-specific antibody responses were most pronounced in the variant expressing RBD194 fragment as a chimeric HA protein. This candidate was further tested in Syrian hamsters and was shown to be immunogenic and capable of protecting animals against both infections.
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Affiliation(s)
| | | | - Daria Mezhenskaya
- Institute of Experimental Medicine, Saint Petersburg, 197022, Russia
| | - Sergei Niskanen
- Joint-Stock Company «BIOCAD» (JSC «BIOCAD») Saint Petersburg, Intracity Municipality the Settlement of Strelna, the Settlement of Strelna, ul. Svyazi, d. 38, str. 1, pomeshch. 89, Saint Petersburg, 198515, Russia
| | | | | | - Alexandra Rak
- Institute of Experimental Medicine, Saint Petersburg, 197022, Russia
| | - Pei Fong Wong
- Institute of Experimental Medicine, Saint Petersburg, 197022, Russia
| | - Polina Prokopenko
- Institute of Experimental Medicine, Saint Petersburg, 197022, Russia
| | - Tatiana Kotomina
- Institute of Experimental Medicine, Saint Petersburg, 197022, Russia
| | - Elena Krutikova
- Institute of Experimental Medicine, Saint Petersburg, 197022, Russia
| | - Sergei Legotskiy
- Joint-Stock Company «BIOCAD» (JSC «BIOCAD») Saint Petersburg, Intracity Municipality the Settlement of Strelna, the Settlement of Strelna, ul. Svyazi, d. 38, str. 1, pomeshch. 89, Saint Petersburg, 198515, Russia
| | - Bogdan Neterebskii
- Joint-Stock Company «BIOCAD» (JSC «BIOCAD») Saint Petersburg, Intracity Municipality the Settlement of Strelna, the Settlement of Strelna, ul. Svyazi, d. 38, str. 1, pomeshch. 89, Saint Petersburg, 198515, Russia
| | - Tatiana Ostroukhova
- Joint-Stock Company «BIOCAD» (JSC «BIOCAD») Saint Petersburg, Intracity Municipality the Settlement of Strelna, the Settlement of Strelna, ul. Svyazi, d. 38, str. 1, pomeshch. 89, Saint Petersburg, 198515, Russia
| | - Konstantin Sivak
- Smorodintsev Research Institute of Influenza, Saint Petersburg, 197376, Russia
| | - Yana Orshanskaya
- Smorodintsev Research Institute of Influenza, Saint Petersburg, 197376, Russia
| | - Kirill Yakovlev
- Smorodintsev Research Institute of Influenza, Saint Petersburg, 197376, Russia
| | - Larisa Rudenko
- Institute of Experimental Medicine, Saint Petersburg, 197022, Russia
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Park BR, Kim KH, Kotomina T, Kim MC, Kwon YM, Jeeva S, Jung YJ, Bhatnagar N, Isakova-Sivak I, Mezhenskaya D, Rudenko L, Wang BZ, Kang SM. Broad cross protection by recombinant live attenuated influenza H3N2 seasonal virus expressing conserved M2 extracellular domain in a chimeric hemagglutinin. Sci Rep 2021; 11:4151. [PMID: 33603072 PMCID: PMC7893060 DOI: 10.1038/s41598-021-83704-0] [Citation(s) in RCA: 10] [Impact Index Per Article: 3.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/12/2020] [Accepted: 02/03/2021] [Indexed: 12/24/2022] Open
Abstract
Hemagglutinin (HA)-based current vaccines provide suboptimum cross protection. Influenza A virus contains an ion channel protein M2 conserved extracellular domain (M2e), a target for developing universal vaccines. Here we generated reassortant influenza virus rgH3N2 4xM2e virus (HA and NA from A/Switzerland/9715293/2013/(H3N2)) expressing chimeric 4xM2e-HA fusion proteins with 4xM2e epitopes inserted into the H3 HA N-terminus. Recombinant rgH3N2 4xM2e virus was found to retain equivalent growth kinetics as rgH3N2 in egg substrates. Intranasal single inoculation of mice with live rgH3N2 4xM2e virus was effective in priming the induction of M2e specific IgG antibody responses in mucosal and systemic sites as well as T cell responses. The rgH3N2 4xM2e primed mice were protected against a broad range of different influenza A virus subtypes including H1N1, H3N2, H5N1, H7N9, and H9N2. The findings support a new approach to improve the efficacy of current vaccine platforms by recombinant influenza virus inducing immunity to HA and cross protective M2e antigens.
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Affiliation(s)
- Bo Ryoung Park
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Ki-Hye Kim
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Tatiana Kotomina
- Department of Virology, Institute of Experimental Medicine, St Petersburg, Russia
| | - Min-Chul Kim
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
- CARESIDE Co., Ltd., Seongnam, Gyeonggi-do, Republic of Korea
| | - Young-Man Kwon
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Subbiah Jeeva
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Yu-Jin Jung
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Noopur Bhatnagar
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Irina Isakova-Sivak
- Department of Virology, Institute of Experimental Medicine, St Petersburg, Russia
| | - Daria Mezhenskaya
- Department of Virology, Institute of Experimental Medicine, St Petersburg, Russia
| | - Larisa Rudenko
- Department of Virology, Institute of Experimental Medicine, St Petersburg, Russia
| | - Bao-Zhong Wang
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Sang-Moo Kang
- Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA.
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3
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Mezhenskaya D, Isakova-Sivak I, Kotomina T, Matyushenko V, Kim MC, Bhatnagar N, Kim KH, Kang SM, Rudenko L. A Strategy to Elicit M2e-Specific Antibodies Using a Recombinant H7N9 Live Attenuated Influenza Vaccine Expressing Multiple M2e Tandem Repeats. Biomedicines 2021; 9:biomedicines9020133. [PMID: 33535408 PMCID: PMC7912525 DOI: 10.3390/biomedicines9020133] [Citation(s) in RCA: 6] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Grants] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/21/2020] [Revised: 01/26/2021] [Accepted: 01/27/2021] [Indexed: 12/21/2022] Open
Abstract
Influenza viruses remain a serious public health problem. Vaccination is the most effective way to prevent the disease; however, seasonal influenza vaccines demonstrate low or no effectiveness against antigenically drifted and newly emerged influenza viruses. Different strategies of eliciting immune responses against conserved parts of various influenza virus proteins are being developed worldwide. We constructed a universal live attenuated influenza vaccine (LAIV) candidate with enhanced breadth of protection by modifying H7N9 LAIV by incorporating four epitopes of M2 protein extracellular part into its hemagglutinin molecule. The new recombinant H7N9+4M2e vaccine induced anti-M2e antibody responses and demonstrated increased protection against heterosubtypic challenge viruses in direct and serum passive protection studies, compared to the classical H7N9 LAIV. The results of our study suggest that the H7N9+4M2e warrants further investigation in pre-clinical and phase 1 clinical trials.
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Affiliation(s)
- Daria Mezhenskaya
- Department of Virology, Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (D.M.); (T.K.); (V.M.); (L.R.)
| | - Irina Isakova-Sivak
- Department of Virology, Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (D.M.); (T.K.); (V.M.); (L.R.)
- Correspondence:
| | - Tatiana Kotomina
- Department of Virology, Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (D.M.); (T.K.); (V.M.); (L.R.)
| | - Victoria Matyushenko
- Department of Virology, Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (D.M.); (T.K.); (V.M.); (L.R.)
| | - Min-Chul Kim
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (M.-C.K.); (N.B.); (K.-H.K.); (S.-M.K.)
| | - Noopur Bhatnagar
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (M.-C.K.); (N.B.); (K.-H.K.); (S.-M.K.)
| | - Ki-Hye Kim
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (M.-C.K.); (N.B.); (K.-H.K.); (S.-M.K.)
| | - Sang-Moo Kang
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (M.-C.K.); (N.B.); (K.-H.K.); (S.-M.K.)
| | - Larisa Rudenko
- Department of Virology, Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (D.M.); (T.K.); (V.M.); (L.R.)
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4
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Kotomina T, Isakova-Sivak I, Kim KH, Park BR, Jung YJ, Lee Y, Mezhenskaya D, Matyushenko V, Kang SM, Rudenko L. Generation and Characterization of Universal Live-Attenuated Influenza Vaccine Candidates Containing Multiple M2e Epitopes. Vaccines (Basel) 2020; 8:vaccines8040648. [PMID: 33153089 PMCID: PMC7711583 DOI: 10.3390/vaccines8040648] [Citation(s) in RCA: 8] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/02/2020] [Revised: 10/20/2020] [Accepted: 10/29/2020] [Indexed: 12/24/2022] Open
Abstract
Influenza viruses constantly evolve, reducing the overall protective effect of routine vaccination campaigns. Many different strategies are being explored to design universal influenza vaccines capable of protecting against evolutionary diverged viruses. The ectodomain of influenza A M2e protein (M2e) is among the most promising targets for universal vaccine design. Here, we generated two recombinant live attenuated influenza vaccines (LAIVs) expressing additional four M2e tandem repeats (4M2e) from the N-terminus of the viral hemagglutinin (HA) protein, in an attempt to enhance the M2e-mediated cross-protection. The recombinant H1N1+4M2e and H3N2+4M2e viruses retained growth characteristics attributable to traditional LAIV viruses and induced robust influenza-specific antibody responses in BALB/c mice, although M2e-specific antibodies were raised only after two-dose vaccination with LAIV+4M2e viruses. Mice immunized with either LAIV or LAIV+4M2e viruses were fully protected against a panel of heterologous influenza challenge viruses suggesting that antibody and cell-mediated immunity contributed to the protection. The protective role of the M2e-specific antibody was seen in passive serum transfer experiments, where enhancement in the survival rates between classical LAIV and chimeric H3N2+4M2e LAIV was demonstrated for H3N2 and H5N1 heterologous challenge viruses. Overall, the results of our study suggest that M2e-specific antibodies induced by recombinant LAIV+4M2e in addition to cellular immunity by LAIV play an important role in conferring protection against heterologous viruses.
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Affiliation(s)
- Tatiana Kotomina
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (T.K.); (D.M.); (V.M.); (L.R.)
| | - Irina Isakova-Sivak
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (T.K.); (D.M.); (V.M.); (L.R.)
- Correspondence:
| | - Ki-Hye Kim
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (K.-H.K.); (B.R.P.); (Y.-J.J.); (Y.L.); (S.-M.K.)
| | - Bo Ryoung Park
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (K.-H.K.); (B.R.P.); (Y.-J.J.); (Y.L.); (S.-M.K.)
| | - Yu-Jin Jung
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (K.-H.K.); (B.R.P.); (Y.-J.J.); (Y.L.); (S.-M.K.)
| | - Youri Lee
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (K.-H.K.); (B.R.P.); (Y.-J.J.); (Y.L.); (S.-M.K.)
| | - Daria Mezhenskaya
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (T.K.); (D.M.); (V.M.); (L.R.)
| | - Victoria Matyushenko
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (T.K.); (D.M.); (V.M.); (L.R.)
| | - Sang-Moo Kang
- Center for Inflammation, Immunity and Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA 30303, USA; (K.-H.K.); (B.R.P.); (Y.-J.J.); (Y.L.); (S.-M.K.)
| | - Larisa Rudenko
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (T.K.); (D.M.); (V.M.); (L.R.)
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5
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Kotomina T, Isakova-Sivak I, Stepanova E, Mezhenskaya D, Matyushenko V, Prokopenko P, Sivak K, Kiseleva I, Rudenko L. Neutralizing epitope of the Fusion Protein of Respiratory Syncytial Virus Embedded in the HA Molecule of LAIV Virus is not Sufficient to Prevent RS Virus Pulmonary Replication but Ameliorates Lung Pathology following RSV Infection in Mice. Open Microbiol J 2020. [DOI: 10.2174/1874285802014010147] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/22/2022] Open
Abstract
Aims:
To develop experimental bivalent vaccines against influenza and RSV using a cold-adapted LAIV backbone.
Background:
Respiratory syncytial virus (RSV) is a causative agent of bronchiolitis and pneumonia in young children, elderly and immunocompromised adults. No vaccine against RSV has been licensed to date for various reasons. One of the promising platforms for designing RSV vaccine is the use of live attenuated influenza vaccine (LAIV) viruses to deliver RSV epitopes to the respiratory mucosa.
Objective:
To generate recombinant LAIV viruses encoding a neutralizing epitope of the RSV fusion protein and assess their protective potential against both influenza and RSV infections in a mouse model.
Methods:
Reverse genetics methods were used to rescue recombinant LAIV+HA/RSV viruses expressing chimeric hemagglutinins encoding the RSV-F epitope at its N-terminus using two different flexible linkers. BALB/c mice were intranasally immunized with two doses of the recombinant viruses and then challenged with the influenza virus or RSV. The LAIV viral vector and formalin-inactivated RSV (FI-RSV) were included as control vaccines. Protection was assessed by the reduction of virus pulmonary titers. In addition, RSV-induced lung pathology was evaluated by histopathology studies.
Results:
Two rescued chimeric LAIV+HA/RSV viruses were identical to the LAIV vector in terms of replication capacity in vitro and in vivo. The RSV-F neutralizing epitope was successfully expressed only if inserted into the HA molecule via G-linker, but not A-linker. Both chimeric viruses induced high influenza-specific antibody levels and fully protected mice against a lethal influenza challenge virus. However, they induced weak anti-RSV antibody responses which did not prevent RS virus replication upon challenge, and only LAIV-HA+G-RSV variant protected mice against RSV-induced lung pathology.
Conclusion:
Although the designed LAIV-RSV chimeric viruses were unable to neutralize the RS virus pulmonary replication, the LAIV-HA+G-RSV reduced RSV-induced lung pathology and can be considered a promising bivalent vaccine against influenza and RSV infections and warrants its further development.
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Matyushenko V, Kotomina T, Kudryavtsev I, Mezhenskaya D, Prokopenko P, Matushkina A, Sivak K, Muzhikyan A, Rudenko L, Isakova-Sivak I. Conserved T-cell epitopes of respiratory syncytial virus (RSV) delivered by recombinant live attenuated influenza vaccine viruses efficiently induce RSV-specific lung-localized memory T cells and augment influenza-specific resident memory T-cell responses. Antiviral Res 2020; 182:104864. [PMID: 32585323 PMCID: PMC7313889 DOI: 10.1016/j.antiviral.2020.104864] [Citation(s) in RCA: 5] [Impact Index Per Article: 1.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/28/2020] [Revised: 05/30/2020] [Accepted: 06/16/2020] [Indexed: 12/14/2022]
Abstract
Respiratory syncytial virus (RSV) can cause recurrent infection in people because it does not stimulate a long-lived immunological memory. There is an urgent need to develop a safe and efficacious vaccine against RSV that would induce immunological memory without causing immunopathology following natural RSV infection. We have previously generated two recombinant live attenuated influenza vaccine (LAIV) viruses that encode immunodominant T-cell epitopes of RSV M2 protein in the neuraminidase or NS1 genes. These chimeric vaccines afforded protection against influenza and RSV infection in mice, without causing pulmonary eosinophilia or inflammatory RSV disease. The current study assessed the formation of influenza-specific and RSV-specific CD4 and CD8 T-cell responses in the lungs of mice, with special attention to the lung tissue-resident memory T cell subsets (TRM). The RSV epitopes did not affect influenza-specific CD4 effector memory T cell (Tem) levels in the lungs. The majority of these cells formed by LAIV or LAIV-RSV viruses had CD69+CD103- phenotype. Both LAIV+NA/RSV and LAIV+NS/RSV recombinant viruses induced significant levels of RSV M282 epitope-specific lung-localized CD8 Tem cells expressing both CD69 and CD103 TRM markers. Surprisingly, the CD69+CD103+ influenza-specific CD8 Tem responses were augmented by the addition of RSV epitopes, possibly as a result of the local microenvironment formed by the RSV-specific memory T cells differentiating to TRM in the lungs of mice immunized with LAIV-RSV chimeric viruses. This study provides evidence that LAIV vector-based vaccination can induce robust lung-localized T-cell immunity to the inserted T-cell epitope of a foreign pathogen, without altering the immunogenicity of the viral vector itself. Two LAIV-RSV vaccine viruses induced RSV M282-specific effector memory CD8 T cells producing both IFNγ and TNFα cytokines. The inserted RSV epitopes did not affect influenza-specific CD4 Tem levels in the lungs of immunized mice. LAIV-RSV viruses induced RSV M282-specific lung-localized CD8 Tem cells expressing both CD69 and CD103 TRM markers. The magnitude of RSV M282-specific CD8 Tem responses correlates with protection against RSV-induced lung pathology. The addition of RSV epitopes into the LAIV strain augmented CD69+CD103+ influenza-specific CD8 Tem responses in the lungs.
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Affiliation(s)
- Victoria Matyushenko
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg, Russia
| | - Tatiana Kotomina
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg, Russia
| | - Igor Kudryavtsev
- Department of Immunology, Institute of Experimental Medicine, Saint Petersburg, Russia
| | - Daria Mezhenskaya
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg, Russia
| | - Polina Prokopenko
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg, Russia
| | - Anastasia Matushkina
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg, Russia
| | - Konstantin Sivak
- Smorodintsev Research Institute of Influenza, Saint Petersburg, Russia
| | - Arman Muzhikyan
- Smorodintsev Research Institute of Influenza, Saint Petersburg, Russia
| | - Larisa Rudenko
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg, Russia
| | - Irina Isakova-Sivak
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg, Russia.
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7
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Isakova-Sivak I, Matyushenko V, Stepanova E, Matushkina A, Kotomina T, Mezhenskaya D, Prokopenko P, Kudryavtsev I, Kopeykin P, Sivak K, Rudenko L. Recombinant Live Attenuated Influenza Vaccine Viruses Carrying Conserved T-cell Epitopes of Human Adenoviruses Induce Functional Cytotoxic T-Cell Responses and Protect Mice against Both Infections. Vaccines (Basel) 2020; 8:vaccines8020196. [PMID: 32344618 PMCID: PMC7349758 DOI: 10.3390/vaccines8020196] [Citation(s) in RCA: 9] [Impact Index Per Article: 2.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/03/2020] [Revised: 04/17/2020] [Accepted: 04/22/2020] [Indexed: 01/01/2023] Open
Abstract
Human adenoviruses (AdVs) are one of the most common causes of acute respiratory viral infections worldwide. Multiple AdV serotypes with low cross-reactivity circulate in the human population, making the development of an effective vaccine very challenging. In the current study, we designed a cross-reactive AdV vaccine based on the T-cell epitopes conserved among various AdV serotypes, which were inserted into the genome of a licensed cold-adapted live attenuated influenza vaccine (LAIV) backbone. We rescued two recombinant LAIV-AdV vaccines by inserting the selected AdV T-cell epitopes into the open reading frame of full-length NA and truncated the NS1 proteins of the H7N9 LAIV virus. We then tested the bivalent vaccines for their efficacy against influenza and human AdV5 in a mouse model. The vaccine viruses were attenuated in C57BL/6J mice and induced a strong influenza-specific antibody and cell-mediated immunity, fully protecting the mice against virulent influenza virus infection. The CD8 T-cell responses induced by both LAIV-AdV candidates were functional and efficiently killed the target cells loaded either with influenza NP366 or AdV DBP418 peptides. In addition, high levels of recall memory T cells targeted to an immunodominant H2b-restricted CD8 T-cell epitope were detected in the immunized mice after the AdV5 challenge, and the magnitude of these responses correlated with the level of protection against pulmonary pathology caused by the AdV5 infection. Our findings suggest that the developed recombinant vaccines can be used for combined protection against influenza and human adenoviruses and warrant further evaluation on humanized animal models and subsequent human trials.
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Affiliation(s)
- Irina Isakova-Sivak
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
- Correspondence:
| | - Victoria Matyushenko
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
| | - Ekaterina Stepanova
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
| | - Anastasia Matushkina
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
| | - Tatiana Kotomina
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
| | - Daria Mezhenskaya
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
| | - Polina Prokopenko
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
| | - Igor Kudryavtsev
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
| | - Pavel Kopeykin
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
| | - Konstantin Sivak
- Smorodintsev Research Institute of Influenza, 197376 Saint Petersburg, Russia;
| | - Larisa Rudenko
- Institute of Experimental Medicine, 197376 Saint Petersburg, Russia; (V.M.); (E.S.); (A.M.); (T.K.); (D.M.); (P.P.); (I.K.); (P.K.); (L.R.)
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8
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Kirsteina A, Akopjana I, Bogans J, Lieknina I, Jansons J, Skrastina D, Kazaka T, Tars K, Isakova-Sivak I, Mezhenskaya D, Kotomina T, Matyushenko V, Rudenko L, Kazaks A. Construction and Immunogenicity of a Novel Multivalent Vaccine Prototype Based on Conserved Influenza Virus Antigens. Vaccines (Basel) 2020; 8:vaccines8020197. [PMID: 32344753 PMCID: PMC7349063 DOI: 10.3390/vaccines8020197] [Citation(s) in RCA: 11] [Impact Index Per Article: 2.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/30/2020] [Revised: 04/17/2020] [Accepted: 04/21/2020] [Indexed: 02/06/2023] Open
Abstract
Influenza, an acute, highly contagious respiratory disease, remains a significant threat to public health. More effective vaccination strategies aimed at inducing broad cross-protection not only against seasonal influenza variants, but also zoonotic and emerging pandemic influenza strains are urgently needed. A number of conserved protein targets to elicit such cross-protective immunity have been under investigation, with long alpha-helix (LAH) from hemagglutinin stalk and ectodomain of matrix protein 2 ion channel (M2e) being the most studied ones. Recently, we have reported the three-dimensional structure and some practical applications of LAH expressed in Escherichia coli system (referred to as tri-stalk protein). In the present study, we investigated the immunogenicity and efficacy of a panel of broadly protective influenza vaccine prototypes based on both influenza tri-stalk and triple M2e (3M2e) antigens integrated into phage AP205 virus-like particles (VLPs). While VLPs containing the 3M2e alone induced protection against standard homologous and heterologous virus challenge in mice, only the combination of both conserved influenza antigens into a single VLP fully protected mice from a high-dose homologous H1N1 influenza infection. We propose that a combination of genetic fusion and chemical coupling techniques to expose two different foreign influenza antigens on a single particle is a perspective approach for generation of a broadly-effective vaccine candidate that could protect against the constantly emerging influenza virus strains.
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Affiliation(s)
- Anna Kirsteina
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
| | - Inara Akopjana
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
| | - Janis Bogans
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
| | - Ilva Lieknina
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
| | - Juris Jansons
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
| | - Dace Skrastina
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
| | - Tatjana Kazaka
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
| | - Kaspars Tars
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
| | - Irina Isakova-Sivak
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (I.I.-S.); (D.M.); (T.K.); (V.M.); (L.R.)
| | - Daria Mezhenskaya
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (I.I.-S.); (D.M.); (T.K.); (V.M.); (L.R.)
| | - Tatiana Kotomina
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (I.I.-S.); (D.M.); (T.K.); (V.M.); (L.R.)
| | - Victoria Matyushenko
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (I.I.-S.); (D.M.); (T.K.); (V.M.); (L.R.)
| | - Larisa Rudenko
- Department of Virology, Institute of Experimental Medicine, Saint Petersburg 197376, Russia; (I.I.-S.); (D.M.); (T.K.); (V.M.); (L.R.)
| | - Andris Kazaks
- Latvian Biomedical Research and Study Centre, LV-1067 Riga, Latvia; (A.K.); (I.A.); (J.B.); (I.L.); (J.J.); (D.S.); (T.K.); (K.T.)
- Correspondence:
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9
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Kotomina T, Isakova-Sivak I, Matyushenko V, Kim KH, Lee Y, Jung YJ, Kang SM, Rudenko L. Recombinant live attenuated influenza vaccine viruses carrying CD8 T-cell epitopes of respiratory syncytial virus protect mice against both pathogens without inflammatory disease. Antiviral Res 2019; 168:9-17. [PMID: 31075351 PMCID: PMC6620116 DOI: 10.1016/j.antiviral.2019.05.001] [Citation(s) in RCA: 16] [Impact Index Per Article: 3.2] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/04/2019] [Revised: 05/01/2019] [Accepted: 05/02/2019] [Indexed: 12/29/2022]
Abstract
Respiratory syncytial virus (RSV) is the most common cause of lower respiratory disease in young children, elderly and immunocompromised adults. There is no licensed vaccine against RSV although development of an effective and safe RSV vaccine has been a high priority for several decades. Among the various vaccine platforms, the viral-vectored RSV vaccines based on licensed cold-adapted live attenuated influenza vaccine (LAIV) might offer an advantage of inducing adequate mucosal CD8 T cell immunity at the infection site of respiratory pathogens. We constructed two recombinant LAIV viruses expressing immunodominant T-cell epitopes of RSV M2-1 protein. The results in this study provide evidence that RSV CD8 T cell epitopes delivered by LAIV viral vector could confer protection against RSV infection without causing pulmonary eosinophilia and inflammatory RSV disease in mice. In addition, these chimeric LAIV-RSV vaccines retained their attenuated phenotype and ability to protect against virulent influenza virus, thus providing a unique approach to fight against two dangerous respiratory viral pathogens using a single vaccine preparation.
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Affiliation(s)
- Tatiana Kotomina
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, 197376, Russia
| | - Irina Isakova-Sivak
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, 197376, Russia.
| | - Victoria Matyushenko
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, 197376, Russia
| | - Ki-Hye Kim
- Center for Inflammation, Immunity & Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Youri Lee
- Center for Inflammation, Immunity & Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Yu-Jin Jung
- Center for Inflammation, Immunity & Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Sang-Moo Kang
- Center for Inflammation, Immunity & Infection, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, 30303, USA
| | - Larisa Rudenko
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, 197376, Russia
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Isakova-Sivak I, Matyushenko V, Kotomina T, Kiseleva I, Krutikova E, Donina S, Rekstin A, Larionova N, Mezhenskaya D, Sivak K, Muzhikyan A, Katelnikova A, Rudenko L. Sequential Immunization with Universal Live Attenuated Influenza Vaccine Candidates Protects Ferrets against a High-Dose Heterologous Virus Challenge. Vaccines (Basel) 2019; 7:vaccines7030061. [PMID: 31288422 PMCID: PMC6789596 DOI: 10.3390/vaccines7030061] [Citation(s) in RCA: 19] [Impact Index Per Article: 3.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/22/2019] [Revised: 06/28/2019] [Accepted: 07/04/2019] [Indexed: 12/16/2022] Open
Abstract
The development of universal influenza vaccines has been a priority for more than 20 years. We conducted a preclinical study in ferrets of two sets of live attenuated influenza vaccines (LAIVs) expressing chimeric hemagglutinin (cHA). These vaccines contained the HA stalk domain from H1N1pdm09 virus but had antigenically unrelated globular head domains from avian influenza viruses H5N1, H8N4 and H9N2. The viral nucleoproteins (NPs) in the two sets of universal LAIV candidates were from different sources: one LAIV set contained NP from A/Leningrad/17 master donor virus (MDV), while in the other set this gene was from wild-type (WT) H1N1pdm09 virus, in order to better match the CD8 T-cell epitopes of currently circulating influenza A viruses. To avoid any difference in protective effect of the various anti-neuraminidase (NA) antibodies, all LAIVs were engineered to contain the NA gene of Len/17 MDV. Naïve ferrets were sequentially immunized with three doses of (i) classical LAIVs containing non-chimeric HA and NP from MDV (LAIVs (NP-MDV)); (ii) cHA-based LAIVs containing NP from MDV (cHA LAIVs (NP-MDV)); and (iii) cHA-based LAIVs containing NP from H1N1pdm09 virus (cHA LAIVs (NP-WT)). All vaccination regimens were safe, producing no significant increase in body temperature or weight loss, in comparison with the placebo group. The two groups of cHA-based vaccines induced a broadly reactive HA stalk-directed antibody, while classical LAIVs did not. A high-dose challenge with H1N1pdm09 virus induced significant pathology in the control, non-immunized ferrets, including high virus titers in respiratory tissues, clinical signs of disease and histopathological changes in nasal turbinates and lung tissues. All three vaccination regimens protected animals from clinical manifestations of disease: immunized ferrets did not lose weight or show clinical symptoms, and their fever was significantly lower than in the control group. Further analysis of virological and pathological data revealed the following hierarchy in the cross-protective efficacy of the vaccines: cHA LAIVs (NP-WT) > cHA LAIVs (NP-MDV) > LAIVs (NP-MDV). This ferret study showed that prototype universal cHA-based LAIVs are highly promising candidates for further clinical development.
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Affiliation(s)
- Irina Isakova-Sivak
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia.
| | - Victoria Matyushenko
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
| | - Tatiana Kotomina
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
| | - Irina Kiseleva
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
| | - Elena Krutikova
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
| | - Svetlana Donina
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
| | - Andrey Rekstin
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
| | - Natalia Larionova
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
| | - Daria Mezhenskaya
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
| | - Konstantin Sivak
- Department of Preclinical Trials, Smorodintsev Research Institute of Influenza, St Petersburg 197376, Russia
| | - Arman Muzhikyan
- Department of Preclinical Trials, Smorodintsev Research Institute of Influenza, St Petersburg 197376, Russia
| | - Anastasia Katelnikova
- Department of Toxicology and Microbiology, Institute of Preclinical Research Ltd., St Petersburg 188663, Russia
| | - Larisa Rudenko
- Department of Virology, Institute of Experimental Medicine, St Petersburg 197376, Russia
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11
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Rudenko L, Kiseleva I, Krutikova E, Stepanova E, Isakova-Sivak I, Donina S, Rekstin A, Pisareva M, Bazhenova E, Kotomina T, Katelnikova A, Muzhikyan A, Makarov V, Sparrow EG, Torelli G. Two Live Attenuated Vaccines against Recent Low⁻and Highly Pathogenic H7N9 Influenza Viruses Are Safe and Immunogenic in Ferrets. Vaccines (Basel) 2018; 6:vaccines6040074. [PMID: 30388790 PMCID: PMC6313887 DOI: 10.3390/vaccines6040074] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.7] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/30/2018] [Revised: 09/21/2018] [Accepted: 09/27/2018] [Indexed: 12/11/2022] Open
Abstract
Influenza H7N9 virus is a potentially pandemic subtype to which most people are immunologically naïve. To be better prepared for the potential occurrence of an H7N9 pandemic, in 2017 the World Health Organization recommended developing candidate vaccine viruses from two new H7N9 viruses, A/Guangdong/17SF003/2016 (A/GD) and A/Hong Kong/125/2017 (A/HK). This report describes the development of live attenuated influenza vaccine (LAIV) candidates against A/GD and A/HK viruses and study of their safety and immunogenicity in the ferret model in order to choose the most promising one for a phase I clinical trial. The A/HK-based vaccine candidate (A/17/HK) was developed by classical reassortment in eggs. The A/GD-based vaccine candidate (A/17/GD) was generated by reverse genetics. Ferrets were vaccinated with two doses of LAIV or phosphate-buffered saline. Both H7N9 LAIVs tested were safe for ferrets, as shown by absence of clinical signs, and by virological and histological data; they were immunogenic after a single vaccination. These results provide a compelling argument for further testing of these vaccines in volunteers. Since the A/HK virus represents the cluster that has caused the majority of human cases, and because the A/HK-based LAIV candidate was developed by classical reassortment, this is the preferred candidate for a phase I clinical trial.
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Affiliation(s)
- Larisa Rudenko
- Institute of Experimental Medicine, St. Petersburg 197376, Russia.
| | - Irina Kiseleva
- Institute of Experimental Medicine, St. Petersburg 197376, Russia.
| | - Elena Krutikova
- Institute of Experimental Medicine, St. Petersburg 197376, Russia.
| | | | | | - Svetlana Donina
- Institute of Experimental Medicine, St. Petersburg 197376, Russia.
| | - Andrey Rekstin
- Institute of Experimental Medicine, St. Petersburg 197376, Russia.
| | - Maria Pisareva
- Institute of Experimental Medicine, St. Petersburg 197376, Russia.
| | | | - Tatiana Kotomina
- Institute of Experimental Medicine, St. Petersburg 197376, Russia.
| | | | - Arman Muzhikyan
- Institute of Preclinical Research Ltd., St. Petersburg 188663, Russia.
| | - Valery Makarov
- Institute of Preclinical Research Ltd., St. Petersburg 188663, Russia.
| | | | - Guido Torelli
- World Health Organization, 1211 Geneva, Switzerland.
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12
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Kotomina T, Korenkov D, Matyushenko V, Prokopenko P, Rudenko L, Isakova-Sivak I. Live attenuated influenza vaccine viral vector induces functional cytotoxic T-cell immune response against foreign CD8+ T-cell epitopes inserted into NA and NS1 genes using the 2A self-cleavage site. Hum Vaccin Immunother 2018; 14:2964-2970. [PMID: 30024831 DOI: 10.1080/21645515.2018.1502529] [Citation(s) in RCA: 11] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/21/2022] Open
Abstract
The development of viral vector vaccines against various pathogens for which conventional vaccination approaches are not applicable has been a priority for a number of years. One promising approach is the insertion of immunodominant conservative cytotoxic T-cell (CTL) epitopes into the genome of a viral vector, which then delivers these epitopes to target cells, inducing immunity. Many different viruses have been assessed as viral vectors for CTL-based vaccines, but only a few of them are clinically relevant, mainly because of safety issues and limited knowledge about their performance in humans. In this regard, the use of licensed cold-adapted live attenuated influenza vaccine (LAIV) viruses as a vector delivery system has clear advantages for CTL-based vector vaccines against other respiratory pathogens: LAIV is known to induce all arms of the adaptive immune system and is administered via nasal spray, and its production process is relatively easy and inexpensive. Here we present the first results of the use of an LAIV backbone for designing a CTL epitope-based vaccine against respiratory syncytial virus (RSV). The chimeric LAIV-RSV vaccine candidates were attenuated in mice and induced strong, fully functional CTL immunity in this animal model.
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Affiliation(s)
- Tatiana Kotomina
- a Department of Virology , Institute of Experimental Medicine , Saint Petersburg , Russia
| | - Daniil Korenkov
- a Department of Virology , Institute of Experimental Medicine , Saint Petersburg , Russia
| | - Victoria Matyushenko
- a Department of Virology , Institute of Experimental Medicine , Saint Petersburg , Russia
| | - Polina Prokopenko
- a Department of Virology , Institute of Experimental Medicine , Saint Petersburg , Russia
| | - Larisa Rudenko
- a Department of Virology , Institute of Experimental Medicine , Saint Petersburg , Russia
| | - Irina Isakova-Sivak
- a Department of Virology , Institute of Experimental Medicine , Saint Petersburg , Russia
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13
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Isakova-Sivak I, Korenkov D, Smolonogina T, Kotomina T, Donina S, Matyushenko V, Mezhenskaya D, Krammer F, Rudenko L. Broadly protective anti-hemagglutinin stalk antibodies induced by live attenuated influenza vaccine expressing chimeric hemagglutinin. Virology 2018; 518:313-323. [PMID: 29574336 DOI: 10.1016/j.virol.2018.03.013] [Citation(s) in RCA: 25] [Impact Index Per Article: 4.2] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/05/2018] [Revised: 03/12/2018] [Accepted: 03/15/2018] [Indexed: 12/31/2022]
Abstract
The development of influenza vaccines that can provide broad protection against all drifted seasonal virus variants, zoonotic infections and emerging pandemic strains, has been a priority for two decades. Here we propose a strategy of inducing broadly-reactive anti-stalk antibody by sequential immunizations with live attenuated influenza vaccines (LAIVs) expressing chimeric HAs (cHAs). These vaccines are designed to contain identical hemagglutinin stalk domains from H1N1 virus but antigenically unrelated globular head domains from avian influenza virus subtypes H5, H8 and H9. Mouse experiments demonstrated enhanced cross-protection of cHA-containing LAIVs compared to the relevant vaccine viruses expressing natural HAs, and this enhanced protection was driven by stalk-HA-reactive IgG antibodies. The establishment of fully functional cross-protective immunity after two doses of cHA LAIV vaccination in naïve animals suggests that a similar effect might be expected after a single cHA LAIV dose in primed individuals, or after two to three doses in naïve children.
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Affiliation(s)
- Irina Isakova-Sivak
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, St Petersburg, Russia.
| | - Daniil Korenkov
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, St Petersburg, Russia
| | - Tatiana Smolonogina
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, St Petersburg, Russia
| | - Tatiana Kotomina
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, St Petersburg, Russia
| | - Svetlana Donina
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, St Petersburg, Russia
| | - Victoria Matyushenko
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, St Petersburg, Russia
| | - Daria Mezhenskaya
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, St Petersburg, Russia
| | - Florian Krammer
- Department of Microbiology, Icahn School of Medicine at Mount Sinai, New York, NY, USA
| | - Larisa Rudenko
- Department of Virology, Institute of Experimental Medicine, 12 Acad. Pavlov Street, St Petersburg, Russia
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