ELUCIDATION OF A NOVEL PATHWAY IN STAPHYLOCOCCUS AUREUS: THE ESSENTIAL SITE-SPECIFIC PROCESSING OF RIBOSOMAL PROTEIN L27

Wall, Erin A

01 January 2015

Ribosomal protein L27 is a component of the eubacterial large ribosomal subunit that has been shown to play a critical role in substrate stabilization during protein synthesis. This function is mediated by the L27 N-terminus, which protrudes into the peptidyl transferase center where it interacts with both A-site and P-site tRNAs as well as with 23S rRNA. We observed that L27 in S. aureus and other Firmicutes is encoded with a short N-terminal extension that is not present in most Gram-negative organisms, and is absent from mature ribosomes. The extension contains a conserved cleavage motif; nine N-terminal amino acids are post-translationally removed from L27 by a site-specific protease so that conserved residues important for tRNA stabilization at the peptidyl transferase center are exposed. We have identified a novel cysteine protease in S. aureus that performs this cleavage. This protease, which we have named Prp, is conserved in all bacteria containing the L27 N-terminal extension. L27 cleavage was shown to be essential in S. aureus; un-cleavable L27 did not complement an L27 deletion. Cleavage appears to play an essential regulatory role, as a variant of L27 lacking the cleavage motif could not complement. Ribosomal biology in eubacteria has largely been studied in E. coli; our findings indicate that there are aspects of the basic biology of the ribosome in S. aureus and other related bacteria that differ substantially from that of E. coli. This research lays the foundation for the development of new therapeutic approaches that target this novel, essential pathway.

Staphylococcus aureus

ribosome

L27

cysteine protease

Amino Acids, Peptides, and Proteins

Bacteriology

Biochemistry

Enzymes and Coenzymes

Microbial Physiology

Molecular Biology

Structural Biology

Virology

Characterization of a Novel Protease in Staphylococcus aureus

Johnson, Adam L

01 January 2015

A newly discovered cysteine protease, Prp, has been shown to perform an essential, site-specific cleavage of ribosomal protein L27 in Staphylococcus aureus. In Firmicutes and related bacteria, ribosomal protein L27 is encoded with a conserved N-terminal extension that must be removed to expose residues critical for ribosome function. Uncleavable and pre-cleaved variants were unable to complement an L27 deletion in S. aureus, indicating that this N-terminal processing event is essential and likely plays an important regulatory role. The gene encoding the responsible protease (prp) has been shown to be essential, and is found in all organisms encoding the N-terminal extension of L27. Cleavage of L27 by Prp represents a new target for potential antibiotic therapy. In order to characterize this protease, Prp has been overexpressed and purified. Using an assay we have developed, based on cleavage of a fluorogenic peptide derived from the conserved L27 cleavage sequence, we have undertaken an analysis of the enzyme kinetics and substrate specificity for Prp cleavage and tested predictions made based on a structural model using active-site mutants.

ribosomal protein L27

cysteine protease

site-specific cleavage

N-terminal processing

substrate specificity

enzyme kinetics

active-site model

Bacteria

Bacterial Infections and Mycoses

Biochemistry

Enzymes and Coenzymes

Microbiology

Molecular Biology