Overexpression and structural study of the cathelicidin motif of the protegrin-3 precursor

Abstract

Numerous precursors of antibacterial peptides with unrelated sequences share a similar prosequence of 96-101 residues, referred to as the cathelicidin motif. The structure of this widespread motif has not yet been reported. The cathelicidin motif of protegrin-3 (ProS) was overexpressed in Escherichia coli as a His-tagged protein to facilitate its purification. The His tag was then removed by thrombin cleavage. In addition, the complete proprotegrin-3 (ProS-PG-3) (120 residues) was overexpressed in baculovirus-infected insect cells. As it contained the antibacterial peptide protegrin-3 in its C-terminal part, ProS-PG-3 contained four disulfide bonds. At neutral pH, ProS and ProS-PG-3 adopted two slowly exchanging conformations that existed in a ratio of 55/45. This ratio was progressively modified at acidic pH to reach a 90/10 value at pH 3.0, suggesting that electrostatic interactions are involved in such a conformational change. Therefore, the structural study of the main conformer was undertaken at pH 3.0 by circular dichroism, mass spectrometry, and homo- and heteronuclear NMR. In parallel, a model for the ProS structure was built from the X-ray structure of the chicken cystatin. ProS and the chicken cystatin share two conserved disulfide bonds as well as a high conservation of hydrophobic residues. The ProS model features the conservation of a hydrophobic core made of the interface between the N-terminal helix and the wrapping beta-sheet. Although the full assignment of the main conformer of ProS could not be obtained, available NMR data validated the presence of the N-terminal helix and of a four-stranded beta-sheet, in agreement with the cystatin fold. Moreover, we clearly demonstrated that ProS and ProS-PG-3 share the same global structure, suggesting that the presence of the highly constrained beta-hairpin of protegrin does not significantly modify the structure of the cathelicidin motif of the protegrin precursor.