Bacterial Expression Systems Based on a Protein A and Protein G Designed for the Production of Immunogens: Applications to Plasmodium falciparum Malaria Antigens

Abstract

This article describes expression systems based on staphylococcal protein A (SpA) and streptococcal protein G (SpG) which constitute attractive alternatives for the design and production of fusion proteins containing immunogenic structures. A dual expression system that allows the choice between two fusion partners, two synthetic IgG-binding domains (ZZ) of SpA and the serum albumin-binding region BB of SpG, was developed. Genes encoding antigens are expressed in Escherichia coli in parallel as fusions to ZZ and BB and the produced fusion proteins are affinity-purified on human IgG (ZZ fusions) or human serum albumin (BB fusions). The possibility of using ZZ fusions for immunization and the corresponding BB fusions for analysis of the induced immune responses provides a convenient strategy for the generation and analysis of immune responses to selected immunogenic structures. In addition, the cell surface-attaching regions of SpA have been utilized for cell surface display of heterologous antigens on the surface of the Gram-positive bacterium Staphylococcus xylosus. The dual expression system was used to express synthetic gene constructs and genomic gene fragments encoding immunogenic structures from blood-stage antigens of the malaria parasite Plasmodium falciparum. The fusion proteins produced were highly immunogenic in rabbits, mice, and monkeys and induced antibody and T-cell responses to the expressed antigens. Different applications of the SpA- and SpG-based expression systems are described and the immunological properties of the bacterial fusion partners SpA, ZZ, and BB are discussed.