Lipidation of Class IV CdiA Effector Proteins Promotes Target Cell Recognition during Contact-Dependent Growth Inhibition
Autor: | Tiffany Halvorsen, Nicholas L. Bartelli, David A. Low, Nicole A Chan, Josephine Y. Nguyen, Christopher S. Hayes, Zachary C. Ruhe, Fernando Garza-Sánchez |
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Přispěvatelé: | Laub, Michael T |
Rok vydání: | 2021 |
Předmět: |
Lipid-anchored protein
Microbiology Epitope Lipid A Vaccine Related Virology Biodefense Escherichia coli Receptor toxin-immunity proteins Effector Chemistry Contact Inhibition Escherichia coli Proteins Prevention Membrane Proteins Lipids QR1-502 Cell biology Cell killing Infectious Diseases Emerging Infectious Diseases Cell outer membrane 5.1 Pharmaceuticals bacterial competition Development of treatments and therapeutic interventions Bacterial outer membrane Infection type V secretion system Research Article Protein Binding |
Zdroj: | mBio, vol 12, iss 5 mBio mBio, Vol 12, Iss 5 (2021) |
Popis: | Contact-dependent growth inhibition (CDI) systems enable the direct transfer of protein toxins between competing Gram-negative bacteria. CDI+ strains produce cell surface CdiA effector proteins that bind specific receptors on neighboring bacteria to initiate toxin delivery. Three classes of CdiA effectors that recognize different outer membrane protein receptors have been characterized in Escherichia coli to date. Here, we describe a fourth effector class that uses the lipopolysaccharide (LPS) core as a receptor to identify target bacteria. Selection for CDI-resistant target cells yielded waaF and waaP "deep-rough" mutants, which are unable to synthesize the full LPS core. The CDI resistance phenotypes of other waa mutants suggest that phosphorylated inner-core heptose residues form a critical CdiA recognition epitope. Class IV cdi loci also encode putative lysyl acyltransferases (CdiC) that are homologous to enzymes that lipidate repeats-in-toxin (RTX) cytolysins. We found that catalytically active CdiC is required for full target cell killing activity, and we provide evidence that the acyltransferase appends 3-hydroxydecanoate to a specific Lys residue within the CdiA receptor-binding domain. We propose that the lipid moiety inserts into the hydrophobic leaflet of lipid A to anchor CdiA interactions with the core oligosaccharide. Thus, LPS-binding CDI systems appear to have co-opted an RTX toxin-activating acyltransferase to increase the affinity of CdiA effectors for the target cell outer membrane. IMPORTANCE Contact-dependent growth inhibition (CDI) is a common form of interbacterial competition in which cells use CdiA effectors to deliver toxic proteins into their neighbors. CdiA recognizes target bacteria through specific receptor molecules on the cell surface. Here, we describe a new family of CdiA proteins that use lipopolysaccharide as a receptor to identify target bacteria. Target cell recognition is significantly enhanced by a unique fatty acid that is appended to the receptor-binding region of CdiA. We propose that the linked fatty acid inserts into the target cell outer membrane to stabilize the interaction. The CdiA receptor-binding region appears to mimic the biophysical properties of polymyxins, which are potent antibiotics used to disrupt the outer membranes of Gram-negative bacteria. |
Databáze: | OpenAIRE |
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