Abstract
The potency of inactivated influenza vaccines is determined using a single-radial immunodiffusion (SRID) assay and requires standardized reagents consisting of a Reference Antigen and an influenza strain-specific antiserum. Timely availability of reagents is a critical step in influenza vaccine production, and the need for backup approaches for reagent preparation is an important component of pandemic preparedness. When novel H7N9 viruses emerged in China in 2013, candidate inactivated H7N9 influenza vaccines were developed for evaluation in clinical trials, and reagents were needed to measure vaccine potency. We previously described an alternative approach for generating strain-specific potency antisera, utilizing modified vaccinia virus Ankara vectors to produce influenza hemagglutinin (HA)-containing virus-like particles (VLPs) for immunization. Vector-produced HA antigen is not dependent upon the success of the traditional bromelain-digestion and HA purification. Antiserum for H7N9 vaccines, produced after immunization of sheep with preparations of bromelain-HA (br-HA), was not optimal for the SRID assay, and the supply of antiserum was limited. However, antiserum obtained from sheep boosted with VLPs containing H7 HA greatly improved the ring quality in the SRID assay. Importantly, this antiserum worked well with both egg- and cell-derived antigen and was distributed to vaccine manufacturers. Utilizing a previously developed approach for preparing vaccine potency antiserum, we have addressed a major bottleneck encountered in preparation of H7N9 vaccine reagents. The combination of br-HA and mammalian VLPs for sequential immunization represents the first use of an alternative approach for producing an influenza vaccine potency antiserum.
Highlights
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 by comparison to a homologous HA Reference Antigen.[1,2]
Reagents to assess vaccine potency by the SRID assay, which include inactivated virus as the Reference Antigen and a strainspecific antiserum, were successfully prepared by traditional methods for evaluation of those candidate vaccines. This suggested that a similar approach to preparation of vaccine potency reagents might be successful for H7N9 vaccines
In addition to a new H7N9 candidate vaccine virus RG32A containing the HA from A/ Shanghai/2/2013 (A/Shanghai), we had available a previous H7N3 vaccine virus NIBRG-60 containing the HA from A/ mallard/Netherlands/12/2000 (A/mallard/NL), an H7 virus of Eurasian origin that is phylogenetically related to the HA from the recent H7N9 viruses from China
Summary
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 by comparison to a homologous HA Reference Antigen.[1,2] The antigen and antibody components of the assay constitute the potency reagents that are prepared and distributed by regulatory agencies for use by regulators and vaccine manufacturers to determine the potency of licensed inactivated influenza vaccines, and thereby ensure standardization of vaccines made by various manufacturers.Previously, we described an alternative approach for generating strain-specific potency antibody for use in potency assays for inactivated influenza virus vaccines.[3]. 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 by comparison to a homologous HA Reference Antigen.[1,2] The antigen and antibody components of the assay constitute the potency reagents that are prepared and distributed by regulatory agencies for use by regulators and vaccine manufacturers to determine the potency of licensed inactivated influenza vaccines, and thereby ensure standardization of vaccines made by various manufacturers. The potency of inactivated influenza vaccines is determined using a single-radial immunodiffusion (SRID) assay and requires standardized reagents consisting of a Reference Antigen and an influenza strain-specific antiserum. Availability of reagents is a critical step in influenza vaccine production, and the need for backup approaches for reagent preparation is an important component of pandemic preparedness
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