Application of deglycosylation to SDS PAGE analysis improves calibration of influenza antigen standards.

Each year the production of seasonal influenza vaccines requires antigen standards to be available for the potency assessment of vaccine batches. These are calibrated and assigned a value for haemagglutinin (HA) content. The calibration of an antigen standard is carried out in a collaborative study amongst a small number of national regulatory laboratories which are designated by WHO as Essential Regulatory Laboratories (ERLs) for the purposes of influenza vaccine standardisation.

Determination of H5N1 vaccine potency using reference antisera from heterologous strains of influenza.

Background: Standardization of inactivated influenza vaccines by hemagglutinin (HA) content is performed by the single radial immunodiffusion (SRID) method. Regulatory agencies prepare, calibrate, and distribute SRID reagent standards necessary for testing of seasonal influenza vaccines, and a similar process is used to produce potency reagents for candidate pandemic influenza vaccines that are manufactured for emergency stockpiles.

Objectives: Because of the concerns in generating a timely strain-specific potency antiserum for an emerging pandemic virus, we evaluated the feasibility of using heterologous potency reference antiserum as a replacement for a strain-specific (homologous) antiserum in the SRID potency assay for stockpiled H5N1 vaccines.

An alternative method for preparation of pandemic influenza strain-specific antibody for vaccine potency determination.

The traditional assay used to measure potency of inactivated influenza vaccines is a single-radial immunodiffusion (SRID) assay that utilizes an influenza strain-specific antibody to measure the content of virus hemagglutinin (HA) in the vaccine in comparison to a homologous HA reference antigen. Since timely preparation of potency reagents by regulatory authorities is challenging and always a potential bottleneck in influenza vaccine production, it is extremely important that additional approaches for reagent development be available, particularly in the event of an emerging pandemic influenza virus. An alternative method for preparation of strain-specific antibody that can be used for SRID potency assay is described.

Generation of the influenza B viruses with improved growth phenotype by substitution of specific amino acids of hemagglutinin.

Variability in growth characteristics of influenza B viruses remains a serious limitation in the manufacture of inactivated influenza vaccines. Currently, serial passage in eggs is the strategy used in most instances for selection of high growth virus variants. In previous studies we found that adaptation of the strain B/Victoria/504/2000 to high growth in eggs was associated with changes only in hemagglutinin (HA).

Compromised B cell responses to influenza vaccination in HIV-infected individuals.

Background: Yearly influenza vaccination, although recommended for human immunodeficiency virus (HIV)-infected individuals, has not received thorough evaluation in the era of antiretroviral therapy. We assessed the impact of HIV disease on B cell responses to influenza vaccination.

Methods: Sixty-four HIV-infected and 17 HIV-negative individuals received the 2003-2004 trivalent inactivated influenza vaccine.

Mutational pattern of influenza B viruses adapted to high growth replication in embryonated eggs.

Improved replication of influenza viruses in embryonated chicken eggs (CE) permits increased vaccine production and availability. We investigated the growth properties of influenza B viruses in relation to specific mutations occurring after serial passage in CE. In serial passage experiments yielding high growth variants of B/Victoria/504/2000, mutations predicted to alter amino acid (AA) composition occurred only near the receptor-binding pocket of the hemagglutinins (HA) and in no other genes.

Simple and rapid strategy for genetic characterization of influenza B virus reassortants.

Genetic reassortment of influenza viruses is widely used for creating viruses with specific phenotypes. Reassortment of two influenza viruses, each with eight RNA segments potentially yields as many as 256 gene segment combinations. Therefore, confirmation that progeny viruses possess genomes corresponding to the specified phenotypes can be laborious and time-consuming.

Mapping of genomic segments of influenza B virus strains by an oligonucleotide microarray method.

Similar to other segmented RNA viruses, influenza viruses can exchange genome segments and form a wide variety of reassortant strains upon coreplication within a host cell. Therefore, the mapping of genome segments of influenza viruses is essential for understanding their phenotypes. In this work, we have developed an oligonucleotide microarray hybridization method for simultaneous genotyping of all genomic segments of two highly homologous strains of influenza B virus.