Type III secretion machines: devices for protein delivery into eukaryotic cells

1. Type III secretion machines: devices for protein delivery into eukaryotic cells

2. Main features of type III protein secretion systems • Associated with phenotypes involving intimate bacteria/host-cell interactions • Present in symbiotic and pathogenic gram negative bacteria for animals, plants, and insects • Substrates lack typical sec-dependent signal sequence • Require activating signals for full function • Encoded in extrachromosomal elements or pathogenicity islands • Evolved to deliver bacterial proteins intohost cells

3. Interaction of Salmonella withIntestinal Epithelial Cells: Type III Secretion at Work IL-8 and other cytokines Stimulation of type III secretion Stimulation of Ruffling and nuclear responses (AP-1 & NFkB) Internalization and cytokine production

4. Interaction of Salmonella with intestinal epithelial cells

5. Virulence effector proteins delivered by the Salmonella type III secretion organelle • SopE (exchange factor for Cdc42 & Rac1) • SptP (GAP for Cdc42 & Rac1 and tyrosine phosphatase) • SopB (phosphoinositide phosphatase) • SipA (actin nucleator) • SipC (actin bundling) • AvrA (inhibitor of MAP kinase pathways; putative protease)

6. Salmonella typhimurium type III secretion organelle: the needle complex Export machinery PrgI Outer InvG membrane PrgK Inner PrgH membrane 100 nM Kubori et al. Science (1998); Kubori et al. PNASc (2000)

7. Needle complex assembly pathway “Base” “Needle complex” Sukhan et al. J. Bacteriol. (2001); Sukhan et al. J. Bacteriol. (2003)

8. High resolution view of the Salmonella typhimurium type III secretion organelle (needle complex) and its assembly pathway

9. Isolated needle complexes and needle complex bases with optimized purification protocols Needle complex Needle complex base

10. Single Particle Selection

11. Selection and classification of individual particles orig. filt. align.

12. Averaging of single-class particles to improve the signal/noise ratio Particle Selection/ Noise Reduction/ Aligning Class-Averages original micrograph many particles (one class) one particle

13. Three-dimensional reconstitution from averaged projections

16. Needle complex dimensions

17. Conformational changes upon needle assembly

18. PrgJ is recruited as a structural component to the base during needle assembly Selective Needle Disassembly Repurification (CsCl) and Western

19. The needle complex organelle exhibits varying symmetries 21 fold 22 fold 20 fold 19 fold

20. Summary • The ~15Å resolution structures of the needle complex of Salmonella typhimurium and assembly intermediates were obtained by cryo electron microscopy and single particle analysis • The structure shows varying symmetries ranging from19 to 22 fold indicating heterogeneity in the needle complex • The needle anchors at the top of the base • The base shows the presence of an inner rod composed largely of PrgJ, which anchors at the bottom of the base structure • Comparison of the needle complex structure with assembly intermediatesshowed significant conformational changes in the base substructure upon needle assembly that may provide the bases for substrate switching during type III secretion

21. Acknowledgments Thomas Marlovits Tomoko Kubori Anand Sukhan Vinzenz Unger Dennis Thomas (Brandeis)