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Human Vaccines & Immunotherapeutics Volume 8, 2012 - Issue 4
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Research Paper

Formulation development of a plant-derived h1n1 influenza vaccine containing purified recombinant hemagglutinin antigen

Vidyashankara Iyer Department of Bioengineering; University of Kansas; Lawrence, KS USA
,
Mangala Roshan Liyanage Macromolecule and Vaccine Stabilization Center; Department of Pharmaceutical Chemistry; University of Kansas; Lawrence, KS USA; Current Address: Dendreon Corporation; Seattle, WA
,
Yoko Shoji Fraunhofer USA Center for Molecular Biotechnology; Newark, DE USA
,
Jessica A. Chichester Fraunhofer USA Center for Molecular Biotechnology; Newark, DE USA
,
R. Mark Jones Fraunhofer USA Center for Molecular Biotechnology; Newark, DE USA
,
Vidadi Yusibov Fraunhofer USA Center for Molecular Biotechnology; Newark, DE USA
,
Sangeeta B. Joshi Macromolecule and Vaccine Stabilization Center; Department of Pharmaceutical Chemistry; University of Kansas; Lawrence, KS USA
&
C. Russell Middaugh Macromolecule and Vaccine Stabilization Center; Department of Pharmaceutical Chemistry; University of Kansas; Lawrence, KS USACorrespondence[email protected]
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Pages 453-464 | Published online: 28 Feb 2012
 
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Abstract

Influenza is a prevalent, highly contagious and sometimes fatal respiratory disease. Vaccination provides an effective approach to control the disease, but because of frequent changes in the structure of the major surface proteins, there is great need for a technology that permits rapid preparation of new forms of the vaccine each year in sufficient quantities. Recently, using a safe, simple, time- and cost-effective plant viral vector-based transient expression system, the hemagglutinin antigen of H1N1 influenza A strain (HAC1), an H1N1 influenza vaccine candidate, has been produced in Nicotiana benthamiana plants. As a step toward the generation of a commercially viable subunit influenza vaccine, we developed HAC1 formulations in the presence and absence of an aluminum salt adjuvant (Alhydrogel®), analyzed their properties, and assessed immunogenicity in an animal model.

 

Biophysical properties of HAC1 were evaluated using several spectroscopic and light scattering techniques as a function of pH and temperature combined with data analysis using an empirical phase diagram approach. Excipients that were potent stabilizers of the recombinant protein were identified using intrinsic fluorescence spectroscopy. The adsorptive capacity and thermal stability of the protein on the surface of Alhydrogel® were then examined in the presence and absence of selected stabilizers using UV absorbance after centrifugation and intrinsic fluorescence spectroscopy, respectively. Immunogenicity studies conducted in mice demonstrated that the highest level of serum immune responses (hemagglutination-inhibiting antibody titers), with a 100% seropositive rates, were induced by HAC1 in the presence of Alhydrogel®, and this response was elicited regardless of the solution conditions of the formulation.

Disclosure of Potential Conflicts of Interest

No potential conflicts of interest were disclosed.

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