Generation and characterization of reassortant influenza A viruses propagated in serum-free cultured MDCK-SF1 cells.

J T Voeten, E C Claas, R Brands, A M Palache, G J van Scharrenburg, G F Rimmelzwaan, A D Osterhaus
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Abstract

The replacement of embryonated chicken eggs by tissue culture cells for the production of influenza vaccines is likely to take place in the near future. Vaccines have already been produced in Madin Darby Canine Kidney (MDCK) cells (Brands et al, in this issue) and extensively tested in phase III trials in humans (Palache et al, in this issue) and it seems a matter of time before such vaccines will become available. For this reason, the generation of high-growth reassortants of influenza A virus strains in MDCK cells has been examined. Influenza A virus reassortants of the field strains A/Taiwan/1/86, A/Johannesburg/82/96 and A/Shenzhen/227/95 (all H1N1) were generated in serum-free cultured MDCK-SF1 cells by dual infection with A/Hong Kong/2/68 (H3N2), a strain selected for its high-growth phenotype. These reassortant viruses all contained at least the matrix gene of A/Hong Kong/2/68 which apparently correlates with an improvement of the viral yield.

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在无血清培养的MDCK-SF1细胞中繁殖的重组甲型流感病毒的产生和特性
在不久的将来,可能会用组织培养细胞代替有胚胎的鸡蛋来生产流感疫苗。疫苗已经在Madin Darby犬肾(MDCK)细胞中生产出来(Brands等人,在本期),并在人体III期试验中进行了广泛的测试(Palache等人,在本期),这些疫苗的问世似乎只是时间问题。由于这个原因,已经研究了在MDCK细胞中产生高生长甲型流感病毒株的重组。在无血清培养的MDCK-SF1细胞中,用A/Hong Kong/2/68 (H3N2)双重感染产生了A/Taiwan/1/86、A/Johannesburg/82/96和A/Shenzhen/227/95三株甲型流感病毒重组株(均为H1N1)。这些重组病毒都至少含有A/Hong Kong/2/68的基质基因,这与病毒产量的提高明显相关。
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