Increasing the Potency of an Alhydrogel-Formulated Anthrax Vaccine by Minimizing Antigen-Adjuvant Interactions

Author:

Watkinson Allan1,Soliakov Andrei2,Ganesan Ashok3,Hirst Karie4,LeButt Chris5,Fleetwood Kelly6,Fusco Peter C.4,Fuerst Thomas R.4,Lakey Jeremy H.2

Affiliation:

1. PharmAthene UK Ltd., Billingham, United Kingdom

2. Institute for Cell and Molecular Biosciences, Faculty of Medical Sciences, University of Newcastle, Newcastle-upon-Tyne, United Kingdom

3. XstalBio Ltd., Glasgow, United Kingdom

4. PharmAthene, Inc., Annapolis, Maryland, USA

5. Defence Science and Technology Laboratory, Porton Down, Salisbury, United Kingdom

6. Quantics, Edinburgh, United Kingdom

Abstract

ABSTRACT Aluminum salts are the most widely used vaccine adjuvants, and phosphate is known to modulate antigen-adjuvant interactions. Here we report an unexpected role for phosphate buffer in an anthrax vaccine (SparVax) containing recombinant protective antigen (rPA) and aluminum oxyhydroxide (AlOH) adjuvant (Alhydrogel). Phosphate ions bind to AlOH to produce an aluminum phosphate surface with a reduced rPA adsorption coefficient and binding capacity. However, these effects continued to increase as the free phosphate concentration increased, and the binding of rPA changed from endothermic to exothermic. Crucially, phosphate restored the thermostability of bound rPA so that it resembled the soluble form, even though it remained tightly bound to the surface. Batches of vaccine with either 0.25 mM (subsaturated) or 4 mM (saturated) phosphate were tested in a disease model at batch release, which showed that the latter was significantly more potent. Both formulations retained their potency for 3 years. The strongest aluminum adjuvant effects are thus likely to be via weakly attached or easily released native-state antigen proteins.

Publisher

American Society for Microbiology

Subject

Microbiology (medical),Clinical Biochemistry,Immunology,Immunology and Allergy

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