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https://www.arca.fiocruz.br/handle/icict/49776
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ArtigoDireito Autoral
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SYNTHESIS, LC-MS/MS ANALYSIS, AND BIOLOGICAL EVALUATION OF TWO VACCINE CANDIDATES AGAINST TICKS BASED ON THE ANTIGENIC P0 PEPTIDE FROM R. SANGUINEUS LINKED TO THE P64K CARRIER PROTEIN FROM NEISSERIA MENINGITIDIS
Vaccines
P0 Protein
Hemocyanins
Peptides
Mass Spectrometry
Vacunas
Proteína P0
Hemocianinas
Péptidos
Espectrometría de Masas
Autor(es)
González, Luis Javier
Guzmán, Pedro E. Encinosa
Machado, Wendy
Pousa, Satomy
Leyva, Alejandro
Arguelles, Ana Laura Cano
Cabrera, Gleysin
Espinosa, Luis Ariel
Parra, Rubén
Hernández, Rachel
Soto, Yamil Bello
Ledesma, Frank L.
Joglar, Marisdania
Guirola, Osmany
Kurt, Louise Ulrich
Carvalho, Paulo Costa
Cabrales, Ania
Garay, Hilda
Besada, Vladimir
Durán, Rosario
Takao, Toshifumi
Estrada, Mario Pablo
Rodríguez-Mallon, Alina
Guzmán, Pedro E. Encinosa
Machado, Wendy
Pousa, Satomy
Leyva, Alejandro
Arguelles, Ana Laura Cano
Cabrera, Gleysin
Espinosa, Luis Ariel
Parra, Rubén
Hernández, Rachel
Soto, Yamil Bello
Ledesma, Frank L.
Joglar, Marisdania
Guirola, Osmany
Kurt, Louise Ulrich
Carvalho, Paulo Costa
Cabrales, Ania
Garay, Hilda
Besada, Vladimir
Durán, Rosario
Takao, Toshifumi
Estrada, Mario Pablo
Rodríguez-Mallon, Alina
Afiliação
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Institut Pasteur de Montevideo. Unidad de Bioquímica y Proteómica Analítica. Montevideo, Uruguay. / Instituto de Investigaciones Biológicas Clemente Estable, Montevideo, Uruguay.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Bioinformatics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Fundação Oswaldo Cruz. Instituto Carlos Chagas. Laboratório de Proteômica Estrutural e Computacional. Curitiba, PR, Brasil.
Fundação Oswaldo Cruz. Instituto Carlos Chagas. Laboratório de Proteômica Estrutural e Computacional. Curitiba, PR, Brasil.
Synthetic Peptides Laboratory. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Synthetic Peptides Laboratory. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Institut Pasteur de Montevideo. Unidad de Bioquímica y Proteómica Analítica. Montevideo, Uruguay. / Instituto de Investigaciones Biológicas Clemente Estable, Montevideo, Uruguay.
Institute for Protein Research. Osaka University. Osaka, Japan.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Institut Pasteur de Montevideo. Unidad de Bioquímica y Proteómica Analítica. Montevideo, Uruguay. / Instituto de Investigaciones Biológicas Clemente Estable, Montevideo, Uruguay.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Bioinformatics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Fundação Oswaldo Cruz. Instituto Carlos Chagas. Laboratório de Proteômica Estrutural e Computacional. Curitiba, PR, Brasil.
Fundação Oswaldo Cruz. Instituto Carlos Chagas. Laboratório de Proteômica Estrutural e Computacional. Curitiba, PR, Brasil.
Synthetic Peptides Laboratory. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Synthetic Peptides Laboratory. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Department of Proteomics. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Institut Pasteur de Montevideo. Unidad de Bioquímica y Proteómica Analítica. Montevideo, Uruguay. / Instituto de Investigaciones Biológicas Clemente Estable, Montevideo, Uruguay.
Institute for Protein Research. Osaka University. Osaka, Japan.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Animal Biotechnology Department. Center for Genetic Engineering and Biotechnology. Cubanacán, Havana, Cuba.
Resumo em Inglês
A peptide from the P0 acidic ribosomal protein (pP0) of ticks conjugated to keyhole limpet hemocyanin from Megathura crenulata has shown to be effective against different tick species when used in host vaccination. Turning this peptide into a commercial anti-tick vaccine will depend on finding the appropriate, technically and economically feasible way to present it to the host immune system. Two conjugates (p64K-Cys1pP0 and p64K-βAla1pP0) were synthesized using the p64K carrier protein from Neisseria meningitidis produced in Escherichia coli, the same cross-linking reagent, and two analogues of pP0. The SDS-PAGE analysis of p64K-Cys1pP0 showed a heterogeneous conjugate compared to p64K-βAla1pP0 that was detected as a protein band at 91kDa. The pP0/p64K ratio determined by MALDI-MS for p64K-Cys1pP0 ranged from 1 to 8, being 3-5 the predominant ratio, while in the case of p64K-βAla1pP0 this ratio was 5-7. Cys1pP0 was partially linked to 35 out of 39 Lys residues and the N-terminal end, while βAla1pP0 was mostly linked to the six free cysteine residues, to the N-terminal end, and, in a lesser extent, to Lys residues. The assignment of the conjugation sites and side reactions were based on the identification of type 2 peptides. Rabbit immunizations showed the best anti-pP0 titers and the highest efficacy against Rhipicephalus sanguineus ticks when the p64K-Cys1pP0 was used as vaccine antigen. The presence of high molecular mass aggregates observed in the SDS-PAGE analysis of p64K-Cys1pP0 could be responsible for a better immune response against pP0 and consequently for its better efficacy as an anti-tick vaccine. Graphical abstract.
Palavras-chave em inglês
Tick InfestationsVaccines
P0 Protein
Hemocyanins
Peptides
Mass Spectrometry
Palavras-chave em espanhol
Infestaciones por GarrapatasVacunas
Proteína P0
Hemocianinas
Péptidos
Espectrometría de Masas
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