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  • Identification of critical residues in the hemagglutinin and neuraminidase of influenza virus H1N1pdm for vaccine virus replication in embryonated chicken eggs.

Identification of critical residues in the hemagglutinin and neuraminidase of influenza virus H1N1pdm for vaccine virus replication in embryonated chicken eggs.

Journal of virology (2013-02-15)
Weijia Wang, Janine Lu, Christopher R Cotter, Katie Wen, Hong Jin, Zhongying Chen
RESUMO

In 2009, we successfully produced a high-yield live attenuated H1N1pdm A/California/7/2009 vaccine (CA/09 LAIV) by substitution of three residues (K119E, A186D, and D222G) in the hemagglutinin (HA) protein. Since then, we have generated and evaluated additional H1N1pdm vaccine candidates from viruses isolated in 2010 and 2011. The 2010 strains with the new HA substitutions near the HA receptor binding site (N125D and D127E or D127E and K209E) grew well in eggs and formed large plaques in Madin-Darby canine kidney (MDCK) cells. Introduction of these acidic amino acids into the HA of CA/09 also improved vaccine virus growth in eggs to a titer comparable to that of CA/09 LAIV. However, the high growth of A/Gilroy/231/2011 (Gil/11) vaccine virus required modification in both the HA and the NA segments. The residue at position 369 of the NA was found to be critical for virus replication in MDCK cells and eggs. These HA and NA residues had minimal impact on viral entry but greatly improved viral release from infected cells. Our data implied that the HA receptor binding and NA receptor cleaving function of the poor-growth H1N1pdm virus was not well balanced for virus replication in host cells. The high-growth vaccine candidates described in this study maintained vaccine virus antigenicity and induced high levels of neutralizing antibodies in immunized ferrets, making them suitable for vaccine production. The identification of the amino acids and their roles in viral replication should greatly help vaccine manufacturers to produce high-yield reassortant vaccine viruses against the future drifted H1N1pdm viruses.

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