Abstract
A common theme in bacterial pathogenesis is the manipulation of eukaryotic cells by targeting the cytoskeleton. This is in most cases achieved either by modifying actin, or indirectly via activation of key regulators controlling actin dynamics such as Rho-GTPases. A novel group of bacterial virulence factors termed the WXXXE family has emerged as guanine nucleotide exchange factors (GEFs) for these GTPases. The precise mechanism of nucleotide exchange, however, has remained unclear. Here we report the structure of the WXXXE-protein IpgB2 from Shigella flexneri and its complex with human RhoA. We unambiguously identify IpgB2 as a bacterial RhoA-GEF and dissect the molecular mechanism of GDP release, an essential prerequisite for GTP binding. Our observations uncover that IpgB2 induces conformational changes on RhoA mimicking DbI- but not DOCK family GEFs. We also show that dissociation of the GDP.Mg(2+) complex is preceded by the displacement of the metal ion to the alpha-phosphate of the nucleotide, diminishing its affinity to the GTPase. These data refine our understanding of the mode of action not only of WXXXE GEFs but also of mammalian GEFs of the DH/PH family.
Highlights
A common theme in bacterial pathogenesis is the manipulation of eukaryotic cells by targeting the cytoskeleton
IpgB2 Is a guanine nucleotide exchange factors (GEFs) for Human RhoA—Consistent with the proposed function of IpgB2 acting as a GEF for RhoA, a weak but detectable interaction was found with GDP-bound RhoA in pulldown assays
We report the first crystal structure of a free WXXXE family member
Summary
A common theme in bacterial pathogenesis is the manipulation of eukaryotic cells by targeting the cytoskeleton. Other Rho family members trigger the formation of cell protrusions antagonistic to RhoA, with Rac and Cdc inducing lamellipodia and filopodia, respectively [7, 8] Given their importance in cell physiology, Rho-GTPases have emerged as key targets of pathogens modifying cell signaling or actin remodeling for their own needs [9]. Prototypic members of the family include IpgB1 and IpgB2 from Shigella flexneri and Map from pathogenic Escherichia coli, which are all translocated into the host by type III secretion These proteins were reported to induce filopodia (for Map) or lamellipodia and stress fiber formation, indicative of Rac and RhoA activity in the case of IpgB1 and IpgB2, respectively [16, 18]. IpgB1 was described to drive Rac and JOURNAL OF BIOLOGICAL CHEMISTRY 17197
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