Characterization of Serine Hydrolases Across Clinical
Isolates of Commensal Skin Bacteria Staphylococcus epidermidis Using Activity-Based Protein Profiling
posted on 2020-04-27, 18:08authored byLaura
J. Keller, Christian S. Lentz, Y. Erin Chen, Rebecca J. Metivier, Eranthie Weerapana, Michael A. Fischbach, Matthew Bogyo
The bacterial genus Staphylococcus comprises diverse species that colonize the skin as commensals but
can also cause infection. Previous work identified a family of serine
hydrolases termed fluorophoshonate-binding hydrolases (Fphs) in the
pathogenic bacteria Staphylococcus aureus, one of
which, FphB, functions as a virulence factor. Using a combination
of bioinformatics and activity-based protein profiling (ABPP), we
identify homologues of these enzymes in the related commensal bacteria Staphylococcus epidermidis. Two of the S. aureus Fph enzymes were not identified in S. epidermidis. Using ABPP, we identified several candidate hydrolases that were
not previously identified in S. aureus that
may be functionally related to the Fphs. Interestingly, the activity
of the Fphs vary across clinical isolates of S. epidermidis. Biochemical characterization of the FphB homologue in S. epidermidis (SeFphB) suggests it is a functional homologue of FphB in S. aureus, but our preliminary studies suggest it may
not have a role in colonization in vivo. This potential
difference in biological function between the Fphs of closely related
staphylococcal species may provide mechanisms for specific inhibition
of S. aureus infection without perturbing commensal
communities of related bacteria.