Abstract
ABSTRACTBacteria compete against related individuals by delivering toxins. In myxobacteria, a key delivery and kin discrimination mechanism is called outer membrane (OM) exchange (OME). Here, cells that display compatible polymorphic cell surface receptors recognize one another and bidirectionally transfer OM content. Included in the cargo is a suite of polymorphic SitA lipoprotein toxins. Consequently, OME between compatible cells that are not clonemates results in intoxication, while exchange between clonemates is harmonious because cells express a cognate repertoire of immunity proteins, which themselves are not transferred. SitA toxins belong to six nonhomologous families classified by sequence conservation within their N-terminal “escort domains” (EDs), while their C termini contain polymorphic nucleases that target the cytoplasmic compartment. To investigate how toxins delivered to the OM by OME translocate to the cytoplasm, we selected transposon mutants resistant to each family. Our screens identified eight genes that conferred resistance in a SitA family-specific manner. Most of these genes are predicted to localize to the cell envelope, and some resemble proteins that colicins exploit to gain cell entry. By constructing functional chimeric SitAs between families, we show that the ED determines the specificity of resistance. Importantly, a mutant that confers resistance to all six SitA families was discovered. This gene was named traC and plays an accessory role with traAB in OME. This work thus provides insight into the mechanism of kin discrimination in myxobacteria and provides working models for how SitA toxins exploit host proteins to gain cytoplasmic entry.
Highlights
Bacteria compete against related individuals by delivering toxins
Bacteriocins and other toxins used in microbial warfare must reach the appropriate cellular compartment to act
During OM exchange (OME), lipoprotein toxins are delivered to the inner leaflet of the outer membrane (OM) [37, 38], but how they reach the cytoplasm of target cells was unknown
Summary
Bacteria compete against related individuals by delivering toxins. In myxobacteria, a key delivery and kin discrimination mechanism is called outer membrane (OM) exchange (OME). Our screens identified eight genes that conferred resistance in a SitA family-specific manner Most of these genes are predicted to localize to the cell envelope, and some resemble proteins that colicins exploit to gain cell entry. IMPORTANCE Many bacterial species use diverse systems to deliver bacteriocins or toxins to neighboring competing cells These systems are often selective in targeting cells that are related to themselves and compete in the same niches for resources. Along with the TraA polymorphic cell surface receptor that identifies related individuals with compatible receptors, this work discovered a new protein, called TraC, that functions in this discrimination system. Following homotypic cell-cell receptor binding, cells bidirectionally transfer copious amounts of outer membrane (OM) proteins and lipids This process, called OM exchange (OME), is likely mediated by OM fusion (Fig. 1A). The possible numbers of genomic combinations of sitAI loci are astronomically high where they serve as precision “selfidentity barcodes” that determine social compatibilities between wild Myxococcus xanthus isolates [7, 13, 14]
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