AI Article Synopsis
- Pathogenic bacterial membrane proteins (MPs) are important targets for vaccines and antibiotics, though their hydrophobic nature complicates proper folding in cells.
- A new method has been developed to enhance the solubility of MP antigens by creating multi-epitope chimeric antigens (ChA) and using protein folding helpers.
- The engineered strain produced a high yield of highly soluble ChA, which is significant for its potential application in vaccine development and industrial processes.
Article Abstract
Pathogenic bacterial membrane proteins (MPs) are a class of vaccine and antibiotic development targets with widespread clinical application. However, the inherent hydrophobicity of MPs poses a challenge to fold correctly in living cells. Herein, we present a comprehensive method to improve the soluble form of MP antigen by rationally designing multi-epitope chimeric antigen (ChA) and screening two classes of protein-assisting folding element. The study uses a homologous protein antigen as a functional scaffold to generate a ChA possessing four epitopes from transferrin-binding protein A of Glaesserella parasuis. Our engineered strain, which co-expresses P17 tagged-ChA and endogenous chaperones groEL-ES, yields a 0.346 g/L highly soluble ChA with the property of HPS-positive serum reaction. Moreover, the protein titer of ChA reaches 4.27 g/L with >90% soluble proportion in 5-L bioreactor, which is the highest titer reported so far. The results highlight a timely approach to design and improve the soluble expression of MP antigen in industrially viable applications.
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