Simić, Mihajlo

Link to this page

http://intor.torlakinstitut.com/APP/faces/author.xhtml?author_id=8bfafb75-0cba-4ca1-9060-3f4ab48bcaae&item_offset=0&project_offset=0&sort_by=dc.date.issued
Authority KeyName Variants
8bfafb75-0cba-4ca1-9060-3f4ab48bcaae
  • Simić, Mihajlo (1)
Projects
No records found.

Author's Bibliography

Exploring E. coli-based expression of genetically inactivated tetanus toxin for vaccine development

Panić, Marko; Prijić, Ivana; Simić, Mihajlo; Lukić, Ivana; Petrušić, Marija; Živković, Irena; Kojić, Milan

(Serbian Society for Microbiology, 2024) 

TY  - CONF
AU  - Panić, Marko
AU  - Prijić, Ivana
AU  - Simić, Mihajlo
AU  - Lukić, Ivana
AU  - Petrušić, Marija
AU  - Živković, Irena
AU  - Kojić, Milan
PY  - 2024
UR  - http://intor.torlakinstitut.com/handle/123456789/876
AB  - Tetanus toxin, a highly potent neurotoxin produced by Clostridium tetani, is the primary agent responsible for causing tetanus. This serious, potentially fatal disease can be effectively prevented through vaccination. Thanks to successful vaccination campaigns, tetanus has become exceedingly rare in both developed and most developing countries. However, the widespread presence of C. tetani spores in the environment means that tetanus cannot be completely eradicated, underscoring the ongoing need for vaccination. Traditionally, tetanus vaccines are produced by cultivating C. tetani, extracting a crude form of the tetanus toxin, and then chemically inactivating it for use in immunization. This method has proven clinically effective and is in widespread use. A challenge with this approach, however, is that the vaccine contains hundreds of various C. tetani proteins, with the active component making up only a variable and small fraction of the overall vaccine mass. To improve the current tetanus vaccine, there is potential in the recombinant production of a genetically inactivated tetanus vaccine. Prior studies have demonstrated the feasibility of engineering the full-length tetanus toxin in E. coli, and our current work builds on this foundation. We have successfully cloned the complete tetanus toxin open reading frame into the pMAL expression vector. This step was followed by the creation of a genetically inactivated protein, achieved through standard site-directed mutagenesis which altered 8 critical amino acid residues. These mutations have been confirmed via sequencing, ensuring that the toxin is genetically inactivated and thus does not require chemical inactivation for vaccine production. Our present focus is on optimizing the expression of this protein in E. coli. Following this, we intend to conduct thorough assessments of the biochemical and immunological properties of the recombinant tetanus toxin. This research represents a promising avenue towards enhancing the efficacy and specificity of tetanus vaccines, potentially improving global health outcomes.
PB  - Serbian Society for Microbiology
C3  - XIII Congress of microbiologists of Serbia with international participation, Mikromed regio 5, From biotechnology to human and planetary health, 4-6 april
T1  - Exploring E. coli-based expression of genetically inactivated tetanus toxin for vaccine development
EP  - 113
SP  - 113
UR  - https://hdl.handle.net/21.15107/rcub_intor_876
ER  - 
@conference{
author = "Panić, Marko and Prijić, Ivana and Simić, Mihajlo and Lukić, Ivana and Petrušić, Marija and Živković, Irena and Kojić, Milan",
year = "2024",
abstract = "Tetanus toxin, a highly potent neurotoxin produced by Clostridium tetani, is the primary agent responsible for causing tetanus. This serious, potentially fatal disease can be effectively prevented through vaccination. Thanks to successful vaccination campaigns, tetanus has become exceedingly rare in both developed and most developing countries. However, the widespread presence of C. tetani spores in the environment means that tetanus cannot be completely eradicated, underscoring the ongoing need for vaccination. Traditionally, tetanus vaccines are produced by cultivating C. tetani, extracting a crude form of the tetanus toxin, and then chemically inactivating it for use in immunization. This method has proven clinically effective and is in widespread use. A challenge with this approach, however, is that the vaccine contains hundreds of various C. tetani proteins, with the active component making up only a variable and small fraction of the overall vaccine mass. To improve the current tetanus vaccine, there is potential in the recombinant production of a genetically inactivated tetanus vaccine. Prior studies have demonstrated the feasibility of engineering the full-length tetanus toxin in E. coli, and our current work builds on this foundation. We have successfully cloned the complete tetanus toxin open reading frame into the pMAL expression vector. This step was followed by the creation of a genetically inactivated protein, achieved through standard site-directed mutagenesis which altered 8 critical amino acid residues. These mutations have been confirmed via sequencing, ensuring that the toxin is genetically inactivated and thus does not require chemical inactivation for vaccine production. Our present focus is on optimizing the expression of this protein in E. coli. Following this, we intend to conduct thorough assessments of the biochemical and immunological properties of the recombinant tetanus toxin. This research represents a promising avenue towards enhancing the efficacy and specificity of tetanus vaccines, potentially improving global health outcomes.",
publisher = "Serbian Society for Microbiology",
journal = "XIII Congress of microbiologists of Serbia with international participation, Mikromed regio 5, From biotechnology to human and planetary health, 4-6 april",
title = "Exploring E. coli-based expression of genetically inactivated tetanus toxin for vaccine development",
pages = "113-113",
url = "https://hdl.handle.net/21.15107/rcub_intor_876"
}
Panić, M., Prijić, I., Simić, M., Lukić, I., Petrušić, M., Živković, I.,& Kojić, M.. (2024). Exploring E. coli-based expression of genetically inactivated tetanus toxin for vaccine development. in XIII Congress of microbiologists of Serbia with international participation, Mikromed regio 5, From biotechnology to human and planetary health, 4-6 april
Serbian Society for Microbiology., 113-113.
https://hdl.handle.net/21.15107/rcub_intor_876
Panić M, Prijić I, Simić M, Lukić I, Petrušić M, Živković I, Kojić M. Exploring E. coli-based expression of genetically inactivated tetanus toxin for vaccine development. in XIII Congress of microbiologists of Serbia with international participation, Mikromed regio 5, From biotechnology to human and planetary health, 4-6 april. 2024;:113-113.
https://hdl.handle.net/21.15107/rcub_intor_876 .
Panić, Marko, Prijić, Ivana, Simić, Mihajlo, Lukić, Ivana, Petrušić, Marija, Živković, Irena, Kojić, Milan, "Exploring E. coli-based expression of genetically inactivated tetanus toxin for vaccine development" in XIII Congress of microbiologists of Serbia with international participation, Mikromed regio 5, From biotechnology to human and planetary health, 4-6 april (2024):113-113,
https://hdl.handle.net/21.15107/rcub_intor_876 .