Construction and identification of influenza plasmid pool imparting high yields to candidate vaccine viruses in Vero cell at low temperature.

We generated plasmid pools for the rapid preparation of candidate vaccine strains, which could grow in the Vero cells at low temperature. Firstly, we cloned in the pHW2000 plasmid each of the eight gene segments (PB2, PB1, PA, hemagglutinin [HA], neuraminidase [NA], NS, NP, M) of two master donor strains (MDS), respectively, A/Yunnan/1/2005Vca(H3N2) and B/Yunnan/2/2005Vca(By), which had Vca phenotype (cold-adapted phenotype in Vero cells). Secondly, the similar operation was implemented with each of the HA, NA and NP segments of circulating strains with epidemic potential (parental strains). The virus rescue techniques were employed in this study, according to the homology rate of HA segments between MDS and parental strains. Then, we harvested amount of new Vca virus strains. By transmission electron microscope, it could observe new viruses' diameter and length were from 100 to 120 nm. Importantly, these reassortant viruses could get high-yield production in Vero cells at 25℃ from the beginning to the fourth generation, which was significantly differ from their original parental viruses. Additional, these production 16 new Vca strains could maintain enough antibody binding capacity and attenuation phenotype, which consisted with their MDS. So these plasmid pools constructed by mount of different influenza A and B virus gene fragments could present desired working performance and provide convenience and realization for more Vca reassortant virus as candidate vaccine strain if needing.

Preparation and evaluation of a novel, live, attenuated influenza H1N1 vaccine strain produced by a modified classical reassortment method.

Live attenuated influenza vaccine (LAIV)-based Vero cells could provide a better choice to control and prevent influenza virus infections. This study used the human influenza virus A/Yunnan/1/2005Vca(H3N2) (YN/05Vca) as a donor strain. YN/05Vca has a double phenotype of cold adaption (ca) and Vero cell adaption (va). The parental virus strain used was the wild-type A/Solomon Islands/3/2006 (H1N1) (SI/06wt). The study employed the modified classical reassortment method to generate a new virus strain. After co-infection of Vero cells, some different sub-types of the reassorted viruses were generated randomly. Then, the specific anti-serum (anti-YN/05Vca) could combine with and neutralize the donor virus, and the original parental virus could not grow in Vero cells at a low temperature until it was re-structured with the meaningful gene fragment from the donor virus in Vero cells. According to the plaques and RT-PCR results, a new monoclonal strain of Vero cell cold adaption virus was screened: SI/06Vca. After immunological and biological identification, this new strain virus could be used as a seed bank for LAIV, which has maintained surface antigenicity with SI/06wt. Consequently, this new Vero cell cold adaption virus SI/06Vca could be used for large-scale vaccine production with sufficient safety and efficacy, as confirmed by animal experiments with mice and ferrets.

Development and identification of a new Vero cell-based live attenuated influenza B vaccine by a modified classical reassortment method.

BACKGROUND: It was to generate a new Vero and cold-adapted live attenuated influenza B vaccine with enough safety and immunogenicity. METHODS: According to modified classical reassortment method, the donor strain was B/Yunnan/2/2005Vca(B), and the parental virus strain was B/Brisbane/60/2008wt. After co-infection in Vero cells, the prepared antibody serum inhibited the donor strain growth, and screening conditions inhibited the parental virus growth, which induced the growth of the new reassortant virus B/Brisbane/60/2008Vca(B) grow. Through intraperitoneal injection (i.j.) and intranasal injection (n.j.) we evaluated the safety and immunogenicity of the vaccine. RESULTS: A high-yield of the reassortant virus was produced in Vero cells at 25°C, similar to the donor strains. After sequencing, it was found that B/Brisbane/60/2008Vca(B) Hemagglutinin (HA) and Neuraminidase (NA) gene fragments were from B/Brisbane/60/2008wt, while the other 6 gene fragments were from B/Yunnan/2/2005Vca(B). The n.j. immune pathway experiments showed no significant differences between the treatment and the PBS control group with respect to weight changes (P > 0.5). Furthermore, the new strain had a sufficient geometric mean titter (GMT) against B/Brisbane/60/2008wt. CONCLUSION: The new reassortant live attenuated influenza B vaccine was safe and having enough immune stimulating ability.