| Literature DB >> 24425059 |
John M Hickey1, Kathleen M Holtz, Prakash Manikwar, Sangeeta B Joshi, Clifton E McPherson, Barry Buckland, Indresh K Srivastava, C Russell Middaugh, David B Volkin.
Abstract
The recombinant hemagglutinin (rHA)-based influenza vaccine Flublok® has recently been approved in the United States as an alternative to the traditional egg-derived flu vaccines. Flublok is a purified vaccine with a hemagglutinin content that is threefold higher than standard inactivated influenza vaccines. When rHA derived from an H3N2 influenza virus was expressed, purified, and stored for 1 month, a rapid loss of in vitro potency (∼50%) was observed as measured by the single radial immunodiffusion (SRID) assay. A comprehensive characterization of the rHA protein antigen was pursued to identify the potential causes and mechanisms of this potency loss. In addition, the biophysical and chemical stability of the rHA in different formulations and storage conditions was evaluated over time. Results demonstrate that the potency loss over time did not correlate with trends in changes to the higher order structure or hydrodynamic size of the rHA. The most likely mechanism for the early loss of potency was disulfide-mediated cross-linking of rHA, as the formation of non-native disulfide-linked multimers over time correlated well with the observed potency loss. Furthermore, a loss of free thiol content, particularly in specific cysteine residues in the antigen's C-terminus, was correlated with potency loss measured by SRID.Entities:
Keywords: Flublok®; influenza; mass spectrometry; physicochemical; potency; protein formulation; recombinant hemagglutinin; single-radial immunodiffusion assay; stability; vaccines
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Year: 2014 PMID: 24425059 DOI: 10.1002/jps.23848
Source DB: PubMed Journal: J Pharm Sci ISSN: 0022-3549 Impact factor: 3.534