Abstract
We report a functional type I toxin-antitoxin (TA) module expressed by a human pathogen, Staphylococcus aureus. TA systems consist of stable toxins and labile antitoxins encoded within small genetic modules widespread in eubacteria and archaea. TA genes provide stress adaptation and protection against DNA loss or invasion. The genes encoding the SprA1 toxic peptide (PepA1) and the SprA1(AS) RNA antitoxin are within a pathogenicity island on opposite strands and possess a 3' overlap. To prevent peptide toxicity during S. aureus growth, PepA1 expression from stable (half-life > 3 h) SprA1 is repressed by elevated amounts of unstable (half-life = ∼10 mn) SprA1(AS). In vivo, PepA1 localizes at the bacterial membrane and triggers S. aureus death. Based on NMR and CD data, its solution structure was solved and is a long bent, interrupted helix. Molecular dynamics simulations indicate that PepA1 compaction and helical content fluctuate in accordance with its cytoplasm or membrane location. When inserted into the S. aureus membrane, the PepA1 conformation switches to a ∼7-nm-long continuous helix, presumably forming pores to alter membrane integrity. PepA1 expression is induced upon acidic and oxidative stresses by reducing SprA1(AS) levels. As an altruistic behavior during infection, some cells may induce the expression of that toxin that would facilitate departure from the host immune cells for spreading.
Highlights
Type I toxin-antitoxins are widespread modules with unclear functions
We report a functional type I toxin-antitoxin (TA) module expressed by a human pathogen, Staphylococcus aureus
TA systems consist of stable toxins and labile antitoxins encoded within small genetic modules widespread in eubacteria and archaea
Summary
Type I toxin-antitoxins are widespread modules with unclear functions. Results: The three-dimensional structure of PepA1, a toxin expressed upon acidic and oxidative bursts of Staphylococcus aureus, has been solved. We report a functional type I toxin-antitoxin (TA) module expressed by a human pathogen, Staphylococcus aureus. The genes encoding the SprA1 toxic peptide (PepA1) and the SprA1AS RNA antitoxin are within a pathogenicity island on opposite strands and possess a 3 overlap. S. aureus Toxic Peptide Structure from Toxin-Antitoxin Pair trans-acting RNAs, antisense RNAs, noncoding RNAs and small mRNAs-encoding peptides [1, 7, 8] In this bacterium, the demarcation between cis- and trans-tRNAs can sometimes be fuzzy, as recently shown for the SprA1/SprA1AS pair, in which SprA1 expresses a peptide that is repressed, in trans, by cis-SprA1AS [9]. Experimental data are provided to support the existence of a functional Type I TA module expressed in S. aureus, in which the toxin is a 30-amino acid-long peptide named PepA1. Our structural investigations indicate that when PepA1 is inserted into a membrane bilayer, it adopts an extended, continuous helix as for the “poreforming” peptides, consistent with its membrane positioning in vivo
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