High Level Expression and Purification of the Clinically Active Antimicrobial Peptide P-113 in Escherichia coli.

P-113, which was originally derived from the human saliva protein histatin 5, is a histidine-rich antimicrobial peptide with the sequence AKRHHGYKRKFH. P-113 is currently undergoing phase II clinical trial as a pharmaceutical agent to fight against fungal infections in HIV patients with oral candidiasis. Previously, we developed a new procedure for the high-yield expression and purification of hG31P, an analogue and antagonist of human CXCL8. Moreover, we have successfully removed lipopolysaccharide (LPS, endotoxin) associated with hG31P in the expression with Escherichia coli. In this paper, we have used hG31P as a novel fusion protein for the expression and purification of P-113. The purity of the expressed P-113 is more than 95% and the yield is 4 mg P-113 per liter of E. coli cell culture in Luria-Bertani (LB) medium. The antimicrobial activity of the purified P-113 was tested. Furthermore, we used circular dichroism (CD) and nuclear magnetic resonance (NMR) spectroscopy to study the structural properties of P-113. Our results indicate that using hG31P as a fusion protein to obtain large quantities of P-113 is feasible and is easy to scale up for commercial production. An effective way of producing enough P-113 for future clinical studies is evident in this study.

Sortase A as a tool for high-yield histatin cyclization.

Cyclic peptides are highly valued tools in biomedical research. In many cases, they show higher receptor affinity, enhanced biological activity, and improved serum stability. Technical difficulties in producing cyclic peptides, especially larger ones, in appreciable yields have precluded a prolific use in biomedical research. Here, we describe a novel and efficient cyclization method that uses the peptidyl-transferase activity of the Staphylococcus aureus enzyme sortase A to cyclize linear synthetic precursor peptides. As a model, we used histatin 1, a 38-mer salivary peptide with motogenic activity. Chemical cyclization of histatin 1 resulted in ≤ 3% yields, whereas sortase-mediated cyclization provided a yield of >90%. The sortase-cyclized peptide displayed a maximum wound closure activity at 10 nM, whereas the linear peptide displayed maximal activity at 10 µM. Circular dichroism and NMR spectroscopic analysis of the linear and cyclic peptide in solution showed no evidence for conformational changes, suggesting that structural differences due to cyclization only became manifest when these peptides were located in the binding domain of the receptor. The sortase-based cyclization technology provides a general method for easy and efficient manufacturing of large cyclic peptides.