Cloning, improved expression and purification of invasion plasmid antigen D (IpaD): an effector protein of enteroinvasive Escherichia coli (EIEC).

The widespread increase in broad-spectrum antimicrobial resistance is making it more difficult to treat gastrointestinal infections. Enteroinvasive Escherichia coli is a prominent etiological agent of bacillary dysentery, invading via the fecal-oral route and exerting virulence on the host via the type III secretion system. IpaD, a surface-exposed protein on the T3SS tip that is conserved among EIEC and Shigella , may serve as a broad immunogen for bacillary dysentery protection. For the first time, we present an effective framework for improving the expression level and yield of IpaD in the soluble fraction for easy recovery, as well as ideal storage conditions, which may aid in the development of new protein therapies for gastrointestinal infections in the future. To achieve this, uncharacterized full length IpaD gene from EIEC was cloned into pHis-TEV vector and induction parameters were optimized for enhanced expression in the soluble fraction. After affinity-chromatography based purification, 61% pure protein with a yield of 0.33 mg per litre of culture was obtained. The purified IpaD was retained its secondary structure with a prominent α-helical structure as well as functional activity during storage, at 4°C, -20°C and -80°C using 5% sucrose as cryoprotectants, which is a critical criterion for protein-based treatments.