Syncytia Induction by Clinical Isolates of Human Respiratory Syncytial Virus A.

OBJECTIVE: Syncytia formation is the hallmark of the cytopathic effect caused by human respiratory syncytial virus (HRSV), which is the most important viral respiratory pathogen in children. This article reports methodological improvements in primary HRSV isolation and the importance of syncytia formation and mRNA levels of F protein for the progeny yield, using clinical isolates of HRSV. METHODS: The A and B strains of HRSV were isolated in HEp-2 cell cultures from fresh and frozen nasopharyngeal aspirates. The formation of syncytia was evaluated using 2 different assays. Levels of F protein mRNA were quantified by real-time PCR while HRSV progeny titration was done by plaque assay. RESULTS: HRSV was primarily isolated from 238 of 312 (90.7%) samples, and 13 of these (12 HRSV-A and 1 HRSV-B) were continuously passaged in vitro. The quantity and size of syncytia formed by 6 pure HRSV-A clinical isolates were different, as were the levels of F protein mRNA. CONCLUSION: There is a direct correlation of quantities of syncytia and inoculum size, but not with mRNA levels of HRSV-A F protein. Importantly, levels of F protein mRNA were directly related to progeny production.

Clonagem e expressão do gene da glicoproteína S1 do vírus da bronquite infecciosa das galinhas em Pichia pastoris / Cloning and expression in Pichia pastoris of the S1 glycoprotein gene of the chicken infectious bronchitis virus

Variações genética e antigênica são observadas com frequência elevada entre estirpes do VBIG e envolvem principalmente a glicoproteína S1. Com o objetivo de contribuir com a disponibilidade de ferramentas para o imunodiagnóstico e a imunoprofilaxia da bronquite infecciosa das galinhas foi desenvolvida uma metodologia para expressão recombinante da glicoproteína S1 na levedura Picchia pastoris. O cDNA do gene codificador dessa proteína foi obtido a partir de RNA viral de ovos embrionados infectados com a estirpe M41 do VBIG submetido à transcrição reversa (RT) e reação em cadeia da polimerase (PCR), amplificando-se a sequência codificadora de S1 acrescida de extremidades compatíveis com a clonagem no vetor usado na transformação de leveduras. A indução com metanol resultou na produção de uma proteína detectada como banda única do tamanho previsto, em western-blot, no lisado celular das leveduras transformadas. A expressão em P. pastoris mostrou ser um método eficaz para a produção recombinante da proteína S1 do VBIG, com potencial para utilização em técnicas de imunodiagnóstico da bronquite infecciosa das galinhas.

Genetic and antigenic variation are very frequently observed among IBV strains and affect mainly the S1 glycoprotein. In order to contribute to the availability of tools for immunodiagnosis and immunoprophylaxis of chicken infectious bronchitis we developed an expression system for production of recombinant S1 glycoprotein in Pichia pastoris. We obtained the cDNA from viral RNA on embryonated eggs infected with the M41 strain of IBV, by reverse transcription (RT) and polymerase chain reaction (PCR), amplifying the S1 coding sequence with extremities compatible with the vector used to transform yeast. Induction with methanol led to the production of a protein with the predicted molecular weight that was detected by Western blot in the cell lysate of transformed yeast. Expression in P. pastoris proved to be an effective method for recombinant production of S1 protein from IBV, with potential for use in immuno-diagnosis of chicken infectious bronchitis virus.

[The peptide mapping of the E2-2 and E2-6 sites of the E2 glycoprotein in the Venezuelan equine encephalomyelitis virus]. / Kartirovanie s pomoshch'iu peptidov saitov E2-2 i E2-6 glikoproteina E2 virusa venesuél'skogo éntsefalomielita loshadei.

Nine peptides were synthesized for detailed mapping of VEE virus E2-2 and E2-6 sites responsible for the formation of protective antibodies that neutralize the virus and block hemagglutination. The sequence of the peptides over-lapped the regions of amino acid residues 30-75 and 202-250 of VEE virus E2 protein in which antigenic mutations caused by monoclonal antibodies to E2-2 and E2-6 sites had been mapped. None of the synthesized peptides reacted in the enzyme immunoassay with a panel of 17 Mabs to VEE virus E2 protein. However, eight peptides reacted with polyclonal antiviral serum and two of them elicited antiviral antibody production. The E2-2 site might be associated with amino acid residues 30-45, and the region of E2 residues 57-62 in which antigenic mutations are observed is not a linear type antigenic determinant, but participates in the formation of antigenic determinants of the conformational type. The mapping of residues 202-250 demonstrated that all the peptides in this region were well recognized by polyclonal antiviral serum. The residues 235-240 were shown to form a linear epitope which provided a crossover between VEE and EEE viruses and was not recognized by 19 types of monoclonal antibodies cross-reacting with VEE and EEE viruses.