Non-conventional serine protease activity of the CXC chemokine-cleaving streptococcal enzyme, SpyCEP

The Streptococcus pyogenes cell envelope protease (SpyCEP) is a vital virulence factor in streptococcal pathogenesis. Despite its key role in disease progression and strong association with invasive disease, little is known about the enzymatic function beyond the ELR+ CXC chemokine substrate range. We utilised multiple SpyCEP constructs to interrogate the protein domains and catalytic residues necessary for enzyme function. We leveraged high-throughput mass spectrometry to describe the Michaelis-Menton parameters of active SpyCEP, revealing a Michaelis-Menton constant (KM) of 53.49 nM and a turnover of 1.34 molecules per second, for the natural chemokine substrate CXCL8. Unexpectedly, we found that an N-terminally-truncated SpyCEP C-terminal construct consisting of only the H279 and S617 catalytic dyad had specific CXCL8 cleaving activity, albeit with a reduced substrate turnover of 2.45 molecules per hour, representing a ~2000-fold reduction in activity. In contrast, the KM of the C-terminal SpyCEP construct and full-length enzyme did not differ. We conclude that the SpyCEP C-terminus plays a key role in substrate binding and recognition with key implications for both current and future streptococcal vaccine designs.