Peptide linker increased the stability of pneumococcal fusion protein vaccine candidate

Peptide linker increased the stability of pneumococcal fusion protein vaccine candidate

is a bacterial pathogen exclusive to humans, responsible for respiratory and systemic diseases. Pneumococcal protein vaccines have been proposed as serotype-independent alternatives to currently used conjugated polysaccharide vaccines, which have presented limitations regarding their coverage. Previ...

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Published in:Frontiers in bioengineering and biotechnology Vol. 11; p. 1108300
Main Authors: Zane, Luciano, Kraschowetz, Stefanie, Trentini, Monalisa Martins, Alves, Vitor Dos Santos, Araujo, Sergio Carneiro, Goulart, Cibelly, Leite, Luciana Cezar de Cerqueira, Gonçalves, Viviane Maimoni
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 26-01-2023
Subjects:
Bioengineering and Biotechnology
mouse immunization
pneumolysin
protease detection
PspA
spacer
Streptococcus pneumoniae
PspA
mouse immunization
spacer
pneumolysin
protease detection
protein structural model
Streptococcus pneumoniae
recombinant Escherichia coli
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Abstract is a bacterial pathogen exclusive to humans, responsible for respiratory and systemic diseases. Pneumococcal protein vaccines have been proposed as serotype-independent alternatives to currently used conjugated polysaccharide vaccines, which have presented limitations regarding their coverage. Previously in our group, pneumococcal surface protein A (PspA) and detoxified pneumolysin (PdT) were genetically fused and the hybrid protein protected mice against pneumococcal challenge, offered higher cross-protection against different strains and showed greater opsonophagocytosis rate than co-administered proteins. As juxtaposed fusion was unstable to upscale production of the protein, flexible (PspA-FL-PdT) and rigid (PspA-RL-PdT) molecular linkers were inserted between the antigens to increase stability. This work aimed to produce recombinant fusion proteins, evaluate their stability after linker insertion, both and experimentally, and enable the production of two antigens in a single process. The two constructs with linkers were cloned into and hybrid proteins were purified using chromatography; purity was evaluated by SDS-PAGE and stability by Western blot and high performance size exclusion chromatography. PspA-FL-PdT showed higher stability at -20°C and 4°C, without additional preservatives. In silico analyses also showed differences regarding stability of the fusion proteins, with molecule without linker presenting disallowed amino acid positions in Ramachandran plot and PspA-FL-PdT showing the best scores, in agreement with experimental results. Mice were immunized with three doses and different amounts of each protein. Both fusion proteins protected all groups of mice against intranasal lethal challenge. The results show the importance of hybrid protein structure on the stability of the products, which is essential for a successful bioprocess development.
AbstractList Streptococcus pneumoniae is a bacterial pathogen exclusive to humans, responsible for respiratory and systemic diseases. Pneumococcal protein vaccines have been proposed as serotype-independent alternatives to currently used conjugated polysaccharide vaccines, which have presented limitations regarding their coverage. Previously in our group, pneumococcal surface protein A (PspA) and detoxified pneumolysin (PdT) were genetically fused and the hybrid protein protected mice against pneumococcal challenge, offered higher cross-protection against different strains and showed greater opsonophagocytosis rate than co-administered proteins. As juxtaposed fusion was unstable to upscale production of the protein, flexible (PspA-FL-PdT) and rigid (PspA-RL-PdT) molecular linkers were inserted between the antigens to increase stability. This work aimed to produce recombinant fusion proteins, evaluate their stability after linker insertion, both in silico and experimentally, and enable the production of two antigens in a single process. The two constructs with linkers were cloned into Escherichia coli and hybrid proteins were purified using chromatography; purity was evaluated by SDS-PAGE and stability by Western blot and high performance size exclusion chromatography. PspA-FL-PdT showed higher stability at −20°C and 4°C, without additional preservatives. In silico analyses also showed differences regarding stability of the fusion proteins, with molecule without linker presenting disallowed amino acid positions in Ramachandran plot and PspA-FL-PdT showing the best scores, in agreement with experimental results. Mice were immunized with three doses and different amounts of each protein. Both fusion proteins protected all groups of mice against intranasal lethal challenge. The results show the importance of hybrid protein structure on the stability of the products, which is essential for a successful bioprocess development.
is a bacterial pathogen exclusive to humans, responsible for respiratory and systemic diseases. Pneumococcal protein vaccines have been proposed as serotype-independent alternatives to currently used conjugated polysaccharide vaccines, which have presented limitations regarding their coverage. Previously in our group, pneumococcal surface protein A (PspA) and detoxified pneumolysin (PdT) were genetically fused and the hybrid protein protected mice against pneumococcal challenge, offered higher cross-protection against different strains and showed greater opsonophagocytosis rate than co-administered proteins. As juxtaposed fusion was unstable to upscale production of the protein, flexible (PspA-FL-PdT) and rigid (PspA-RL-PdT) molecular linkers were inserted between the antigens to increase stability. This work aimed to produce recombinant fusion proteins, evaluate their stability after linker insertion, both and experimentally, and enable the production of two antigens in a single process. The two constructs with linkers were cloned into and hybrid proteins were purified using chromatography; purity was evaluated by SDS-PAGE and stability by Western blot and high performance size exclusion chromatography. PspA-FL-PdT showed higher stability at -20°C and 4°C, without additional preservatives. In silico analyses also showed differences regarding stability of the fusion proteins, with molecule without linker presenting disallowed amino acid positions in Ramachandran plot and PspA-FL-PdT showing the best scores, in agreement with experimental results. Mice were immunized with three doses and different amounts of each protein. Both fusion proteins protected all groups of mice against intranasal lethal challenge. The results show the importance of hybrid protein structure on the stability of the products, which is essential for a successful bioprocess development.
Streptococcus pneumoniae is a bacterial pathogen exclusive to humans, responsible for respiratory and systemic diseases. Pneumococcal protein vaccines have been proposed as serotype-independent alternatives to currently used conjugated polysaccharide vaccines, which have presented limitations regarding their coverage. Previously in our group, pneumococcal surface protein A (PspA) and detoxified pneumolysin (PdT) were genetically fused and the hybrid protein protected mice against pneumococcal challenge, offered higher cross-protection against different strains and showed greater opsonophagocytosis rate than co-administered proteins. As juxtaposed fusion was unstable to upscale production of the protein, flexible (PspA-FL-PdT) and rigid (PspA-RL-PdT) molecular linkers were inserted between the antigens to increase stability. This work aimed to produce recombinant fusion proteins, evaluate their stability after linker insertion, both in silico and experimentally, and enable the production of two antigens in a single process. The two constructs with linkers were cloned into Escherichia coli and hybrid proteins were purified using chromatography; purity was evaluated by SDS-PAGE and stability by Western blot and high performance size exclusion chromatography. PspA-FL-PdT showed higher stability at −20°C and 4°C, without additional preservatives. In silico analyses also showed differences regarding stability of the fusion proteins, with molecule without linker presenting disallowed amino acid positions in Ramachandran plot and PspA-FL-PdT showing the best scores, in agreement with experimental results. Mice were immunized with three doses and different amounts of each protein. Both fusion proteins protected all groups of mice against intranasal lethal challenge. The results show the importance of hybrid protein structure on the stability of the products, which is essential for a successful bioprocess development.
Author Gonçalves, Viviane Maimoni
Trentini, Monalisa Martins
Alves, Vitor Dos Santos
Araujo, Sergio Carneiro
Zane, Luciano
Leite, Luciana Cezar de Cerqueira
Goulart, Cibelly
Kraschowetz, Stefanie
AuthorAffiliation 1 Laboratory of Vaccine Development , Butantan Institute , Sao Paulo , Brazil
2 Interunits Graduate Program in Biotechnology , University of Sao Paulo , Sao Paulo , Brazil
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  givenname: Monalisa Martins
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  givenname: Viviane Maimoni
  surname: Gonçalves
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Copyright Copyright © 2023 Zane, Kraschowetz, Trentini, Alves, Araujo, Goulart, Leite and Gonçalves.
Copyright © 2023 Zane, Kraschowetz, Trentini, Alves, Araujo, Goulart, Leite and Gonçalves. 2023 Zane, Kraschowetz, Trentini, Alves, Araujo, Goulart, Leite and Gonçalves
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Keywords PspA
mouse immunization
spacer
pneumolysin
protease detection
protein structural model
Streptococcus pneumoniae
recombinant Escherichia coli
Language English
License Copyright © 2023 Zane, Kraschowetz, Trentini, Alves, Araujo, Goulart, Leite and Gonçalves.
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Reviewed by: Stefan Handtke, Universitätsmedizin Greifswald, Germany
Edited by: Rongzhen Zhang, Jiangnan University, China
This article was submitted to Bioprocess Engineering, a section of the journal Frontiers in Bioengineering and Biotechnology
Karthik Subramanian, Rajiv Gandhi Centre for Biotechnology, India
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Snippet is a bacterial pathogen exclusive to humans, responsible for respiratory and systemic diseases. Pneumococcal protein vaccines have been proposed as...
Streptococcus pneumoniae is a bacterial pathogen exclusive to humans, responsible for respiratory and systemic diseases. Pneumococcal protein vaccines have...
Streptococcus pneumoniae is a bacterial pathogen exclusive to humans, responsible for respiratory and systemic diseases. Pneumococcal protein vaccines have...
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SubjectTerms Bioengineering and Biotechnology
mouse immunization
pneumolysin
protease detection
PspA
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Streptococcus pneumoniae
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Title Peptide linker increased the stability of pneumococcal fusion protein vaccine candidate
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