Seyyed Mahmoud Ebrahimi scite author profile

Seyyed Mahmoud Ebrahimi

3Publications

98Citation Statements Received

73Citation Statements Given

How they've been cited

143

How they cite others

188

Affiliations

Biotechnology Research Center, Razi Vaccine and Serum Research Institute, Baqiyatallah University of Medical Sciences

Publications

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Influenza A viruses: why focusing on M2e-based universal vaccines

Ebrahimi

Tebianian

2010

Virus Genes

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The threat of highly virulent avian influenza, such as H5N1 and swine-origin H1N1 influenza viruses, bring out an urgent need to develop a universal influenza vaccine, which may provide cross-protection against different strain of influenza A viruses. The extra-domain of influenza M2 protein (M2e), which is almost completely conserved among all subtypes of influenza A viruses, is considered as a promising candidate target for the development of a broad-spectrum recombinant influenza A vaccine. The results of several preclinical studies with M2e protein, with or without carriers, have already proved the successful protection of M2e-based vaccinated animal model against lethal challenge of heterologous and homologous influenza A viruses. Recently, the results of Phase I/II clinical trail studies with M2e-based vaccines have raised hopes for considering these vaccines against seasonal and pandemic influenza A strains. Hence, it is expected that more and more effective and safe universal influenza vaccines based on M2e will be developed for prevention of seasonal and pandemic influenza in the near future.

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Nasal vaccination with r4M2e.HSP70c antigen encapsulated into N-trimethyl chitosan (TMC) nanoparticulate systems: Preparation and immunogenicity in a mouse model

Dabaghian

Latifi

Tebianian

et al. 2018

Vaccine

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In contrast to conventional inactivated influenza vaccines, 4xM2e.HSP70c fusion protein fully protected mice against lethal dose of H1, H3 and H9 influenza A isolates circulating in Iran

Ebrahimi

Dabaghian

Tebianian³

et al. 2012

Virology

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Ideal vaccines against influenza viruses should elicit not only a humoral response, but also a cellular response. Mycobacterium tuberculosis HSP70 (mHSP70) have been found to promote immunogenic APCs function, elicit a strong cytotoxic T lymphocyte (CTL) response, and prevent the induction of tolerance. Moreover, it showed linkage of antigens to the C-terminus of mHSP70 (mHSP70c) can represent them as vaccines resulted in more potent, protective antigen specific responses in the absence of adjuvants or complex formulations. Hence, recombinant fusion protein comprising C-terminus of mHSP70 genetically fused to four tandem repeats of the ectodomain of the conserved influenza matrix protein M2 (M2e) was expressed in Escherichia coli, purified under denaturing condition, refolding, and then confirmed by SDS-PAGE, respectively. The recombinant fusion protein, 4xM2e.HSP70c, retained its immunogenicity and displayed the protective epitope of M2e by ELISA and FITC assays. A prime-boost administration of 4xM2e.HSP70c formulated in F105 buffer by intramuscular route in mice (Balb/C) provided full protection against lethal dose of mouse-adapted H1N1, H3N2, or H9N2 influenza A isolates from Iran compared to 0-33.34% survival rate of challenged unimmunized and immunized mice with the currently in use conventional vaccines designated as control groups. However, protection induced by immunization with 4xM2e.HSP70c failed to prevent weight loss in challenged mice; they experienced significantly lower weight loss, clinical symptoms and higher lung viral clearance in comparison with protective effects of conventional influenza vaccines in challenged mice. These data demonstrate that C-terminal domain of mHSP70 can be a superior candidate to deliver the adjuvant function in M2e-based influenza A vaccine in order to provide significant protection against multiple influenza A virus strains.

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