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Convergent use of RhoGAP toxins by eukaryotic parasites and bacterial pathogens. | LitMetric

Convergent use of RhoGAP toxins by eukaryotic parasites and bacterial pathogens.

PLoS Pathog

UMR 1112 UNSA-INRA Résponses des Organismes aux Stress Environnementaux, Sophia-Antipolis, France.

Published: December 2007

AI Article Synopsis

  • Bacterial pathogens often inactivate host Rho GTPases to manipulate cell functions and evade immune responses, with some toxins resembling eukaryotic Rho GTPase-activating proteins (GAPs).
  • Recent research identified a protein called LbGAP from the parasitoid wasp Leptopilina boulardi, which helps its eggs evade the immune system of Drosophila larvae, acting similarly to bacterial RhoGAP toxins.
  • The study confirms LbGAP’s ability to enter Drosophila immune cells, interact with specific Rho GTPases, and highlights that both eukaryotic parasites and bacterial pathogens can target similar immune pathways despite structural differences.

Article Abstract

Inactivation of host Rho GTPases is a widespread strategy employed by bacterial pathogens to manipulate mammalian cellular functions and avoid immune defenses. Some bacterial toxins mimic eukaryotic Rho GTPase-activating proteins (GAPs) to inactivate mammalian GTPases, probably as a result of evolutionary convergence. An intriguing question remains whether eukaryotic pathogens or parasites may use endogenous GAPs as immune-suppressive toxins to target the same key genes as bacterial pathogens. Interestingly, a RhoGAP domain-containing protein, LbGAP, was recently characterized from the parasitoid wasp Leptopilina boulardi, and shown to protect parasitoid eggs from the immune response of Drosophila host larvae. We demonstrate here that LbGAP has structural characteristics of eukaryotic RhoGAPs but that it acts similarly to bacterial RhoGAP toxins in mammals. First, we show by immunocytochemistry that LbGAP enters Drosophila immune cells, plasmatocytes and lamellocytes, and that morphological changes in lamellocytes are correlated with the quantity of LbGAP they contain. Demonstration that LbGAP displays a GAP activity and specifically interacts with the active, GTP-bound form of the two Drosophila Rho GTPases Rac1 and Rac2, both required for successful encapsulation of Leptopilina eggs, was then achieved using biochemical tests, yeast two-hybrid analysis, and GST pull-down assays. In addition, we show that the overall structure of LbGAP is similar to that of eukaryotic RhoGAP domains, and we identify distinct residues involved in its interaction with Rac GTPases. Altogether, these results show that eukaryotic parasites can use endogenous RhoGAPs as virulence factors and that despite their differences in sequence and structure, eukaryotic and bacterial RhoGAP toxins are similarly used to target the same immune pathways in insects and mammals.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2156102PMC
http://dx.doi.org/10.1371/journal.ppat.0030203DOI Listing

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