Tehran University Medical Journal

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Background: In the last decade due to emerge and remerge of influenza viruses, quality improvement of vaccines to increase immune responses in target populations have been more necessary. The potential of biologic adjuvant to stimulate and induce immune system is the basis of modern researches in prevention and controlling program of infectious diseases. In this study, the effect of the coding sequence of cellular Myxovirus resistance (Mx) protein as a biological adjuvant for inducing humoral immune response against influenza virus was investigated. Methods: The experimental study was performed on Balb/c mice in Razi Vaccine and Serum Research Institute from June to November 2014. Three conserved motifs of Mx were selected following sequence alignment between human, mouse and bird species. Potential of the motifs for stimulation immune responses against influenza virus were evaluated using in silico analysis. Based on the immune informatics data Mx1 sequence was the best immune inducer and cloned into pcDNA3.1 vector. Then formulated with inactivated H9N2 influenza antigen as adjuvant and injected to mice groups. The sera of vaccinated mice were collected prior to priming and boosting injections and also at defined weeks and analyzed with serological assays. Histopathological examination was done for evaluation of the vaccine and adjuvant safety. Results: The mean weight of the Balb/c mice in all control and treatment groups was similar and ranged from 21 to 37 gr (P= 0.05). The difference in increasing antibody titers against influenza virus in immunized mice who received Mx1-adjuvanted vaccine especially in second boosting was significant (P= 0.01) compared to the vaccine alone group. More than 78% of the immunized mice receiving two-time boosting have the mean antibody titer of >6 (Log2) which was higher (P= 0.001) comparing to the mice with one booster injection. Conclusion: These data revealed that Mx1 as biological adjuvant was able to increase antibody titer and induction memory immune responses against influenza immunization without causing any side effects.

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The spread of influenza viruses in multiple bird and mammalian species is a worldwide serious threat to human and animal populations' health and raise major concern for ongoing pandemic in humans. Direct transmission of the avian viruses which have sialic acid specific receptors similar to human influenza viruses are a warning to the emergence of a new mutant strain that is likely to share molecular determinants to facilitate their replication in human host. So the emerge virus can be transmitted easily through person to person. The genetic variations of the influenza viruses, emerge and re-emerge of new antigenic variants, and transmission of avian influenza viruses to human may raise wide threat to public health and control of pandemic influenza. Vaccination, chemoprophylaxis with specific antiviral drugs, and personal protective non-pharmacological measures are tools to treat influenza virus infection. The emergence of drug resistant strains of influenza viruses under drug selective pressure and their limited efficacy in severe cases of influenza infections highlight the need to development of new therapies with alternative modes. In recent years several studies have been progressed to introduce components to be act at different stages of the viral life cycle with broad spectrum reactivity against mammalian and bird influenza subtypes. A wide variety of different antiviral strategies include inhibition of virus entry, blocking of viral replication or targeting of cellular signaling pathways have been explored. The current inactivated influenza vaccines are eliciting only B-cell responses. Application of the vaccines has been limited due to the emergence of the new virus antigenic variants. In recent decade development of gene vaccines by targeting various influenza virus proteins have been interested because significant potential for induction of both humoral and cell mediated immunity responses. Enhanced and directed immune responses to viral vaccine can be achieved by using adjuvant. The ability of biological molecular adjuvant such as cytokines, interlukines, and bacterial derivatives to improve the immunogenicity of vaccines as a novel strategy is under evaluation, however, and immune system regulator proteins have additional considerations.

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Background: Problems of live and inactivated influenza vaccines such as, increasing emerge and re-emerge viruses with high human mortality, current epidemics of influenza and direct transmission of avian viruses to human, affect the vaccination program. DNA vaccines as third generation of vaccines is specially considered for control of influenza in human and poultry. The main advantage of these vaccines is humoral and cellular immune responses and broad spectrum of using these vaccines for control of circulating strains of influenza. In this study the conserved fragment of HA2 to form of DNA vaccine was designed to induce immunity against influenza viruses and its heterologous protective immunity against these viruses was evaluated.

Methods: The experimental study was performed in Razi Vaccine and Serum Research Institute from December 2014 to July 2015 in Iran. The HA2 was cloned into pcDNA3.1 to assess the HA2 DNA vaccine and mice were immunized with the generated constructs in a DNA prime-DNA boost regimen in 4 groups. The humoral immune responses were analyzed at defined intervals by VN tests. The safety of the vaccine was evaluated by daily inspection and histopathological examination. For evaluation of cellular immunity, proliferation assay was used. Results: The antibody titre and cellular immunity of immunized mice was significantly higher than control group for two serotypes and the highest responses was in the group with two-time boosting (P<0.01). There were no any local, general and histopathology reactions in immunized mice. Conclusion: The HA2 DNA vaccine significantly enhanced circulatory antibody responses and cellular immunity against influenza current serotypes. This study showed the highest immune responses were in the group that immunized with HA2 in prime and two boosts. Besides that, this construct did not have any local and general reaction and any side effects in treated mice. So, this construct was introduced as candidate for control of influenza virus serotypes.