The Effect of Cyclic Peptides on Sigma E Regulation in Escherichia coli

1. The Effect of Cyclic Peptides on Sigma E Regulation in Escherichia coli Catherine Shea and Shruti Panchavati Dr. Sarah Ades Lab

2. Part of Dr. Ades’ lab studying σE in E. coli • σE is an essential sigma factor necessary for cell envelope homeostasis • Complete inhibition of σE causes cell death • It would be beneficial to find σE inhibitors when trying to discover new antibiotics Project Summary

3. Cyclic Peptide Inhibitors • Created a SICLOPPS library through intein-catalyzed cyclic peptide production Naumann 2008

4. σE Pathway • σE transcribes the sRNA rybB • rybB works with the Hfq protein • Targets the mRNA of OmpC for degradation OmpC mRNA rybB + Hfq σE

5. Let’s Find Inhibitors! • Set up an artificial system with two plasmids rybB OmpCyfp rpoE Plasmid 1 Plasmid 2

6. Plasmid 1 Action σE rybB rpoE rybB

7. Plasmid 2 Action Hfq OmpCyfp OmpC/yfp mRNA rybB RNase RNase

8. Possible Outcomes • If rybB is present in the cell, OmpC/yfp will be degraded • If pathway is blocked, OmpC/yfp will not be degraded

9. Inhibitors Found: • Plasmid 1 (rpoE σE rybB) contains a gene for Ampicillin resistance • Plasmid 2 (OmpC/yfp) contains a gene for Kanamycin resistance • SICLOPPS library plasmid contains a gene for Chloramphenicol resistance • Bright cells growing on Kan/Amp/Chlor plates contained all three plasmids and inhibited the pathway and were selected for further study

10. Selecting for the SICLOPPS plasmid Bright cell growing on Kan/Amp/Chlor plate = contains all three plasmids Chlor plate Miniprep Transform into DH5α Test in screening strain Miniprep Chlor plate Kan/Amp plate

11. Previous FACS Results The image shows fluorescence of control (OFF) strain 6802 (screening strain without ydcQ deletion) ompC-yfp repressed by rybB

12. D13 + arabinose E8 + arabinose E15 + arabinose F3 + arabinose

13. Recent Findings • Specific genetic background for optimal success • Remove enzymes which digest arabinose • Bacteria normally digest arabinose and a large amount of arabinose is deadly to cells • Deletion of ydcQ gene • ΔydcQ allows cells to live without sigma E • Strain 6491: ΔydcQ • Strain 6716: ΔrybB

14. SigmaE sRNA rpoE Ompc-yfp SICLOPPS rybB Amp Kan Chl Plasmid 1 Reporter

15. Preparation of strains • Transformed strains with cyclic peptides • E15 SGWEYVRP, D13 SGWSAYTL, F3 SGWLGPQR, E8 SGWRSVWA • Streaked on Kan, Amp, Chl plates to screen for sensitivity • Added lacZ gene and performed beta-glucosidase to test for high sigma E level E15 E15 D13 D13 6491 6716 F3 F3 E8 E8

16. Observation under Microscope - .0002% arabinose + .0002% arabinose (Longer and Fatter) Problem with growth at 37 degrees Celsius. Toxic intermediates are produced during formation. Fixed by growth at 30 degrees Celsius

17. Preparation of New Strains • Screening Strain SGWMH(Q)VS 16 SGWSW(Q)EP 17 SGWSER(Q)T 18 SGWAD(Q)CK 19 • Chromosome of Screening Strain • Deletion of digestive enzymes • Deletion of ydcQ

18. Observation under Florescence Microscope “OFF” screening strain rpoE-rybB plasmid + ompC-yfp reporter “ON” screening strain Vector + ompC-yfp reporter

19. “ON” screening strain “OFF” screening strain 17 + .0002% arabinose

20. F3 + arabinose “OFF” strain E15 - arabinose E15 + arabinose 832 - arabinose 832 + arabinose

21. Conclusion • While cyclic peptides here have shown to inhibit the system, the mechanism of action is still unclear • Next step is to test what site the cyclic peptides block ? ? sigmaE rybB ompc-ypf