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Effect of lipid composition on peptide-induced coalescence in bicellar mixtures Chris Miranda 1, Michael R. Morrow 1, Valerie Booth 2,1 Memorial University.

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Presentation on theme: "Effect of lipid composition on peptide-induced coalescence in bicellar mixtures Chris Miranda 1, Michael R. Morrow 1, Valerie Booth 2,1 Memorial University."— Presentation transcript:

1 Effect of lipid composition on peptide-induced coalescence in bicellar mixtures Chris Miranda 1, Michael R. Morrow 1, Valerie Booth 2,1 Memorial University of Newfoundland and Labrador 1 Department of Physics and Physical Oceanography 2 Department of Biochemistry

2 Protein-Lipid Interactions Perturbation of bilayers by peptides can be important in many biological contexts. For example: Lung surfactant Antimicrobial activity This Study: Compare effects of a lung surfactant peptide fragment and an antimicrobial peptide on a membrane model system (bicellar dispersions) whose organization is very sensitive to perturbing interactions Ask: Do two peptides (both cationic and amphipathic but apparently different functionally) perturb the model system differently? Is the observed perturbation sensitive to bilayer composition (i.e. anionic lipid content)?

3 Surfactant Protein B air fluid multilayers tubular myelin lamellar bodies type II alveoli Alveolar Function H 3 N + - GR + MLPQLVCR + LVLR + CS- COO - Surfactant Protein B SP-B: 79 residue monomer Cationic (+7), amphipathic, mainly hydrophobic SP-B C-TERM Amphipathic α-helix Cationic (+3), mainly hydrophobic Retains some functionality of full length SP-B

4 Magainin 2 Amphipathic α-helix Cationic (+4) and hydrophobic Suggested to disrupt membrane via pore formation PDBID: 2MAG Gesell, J.. Z. M.. O. S. J. (1997). Two-dimensional 1H NMR experiments show that the 23-residue magainin antibiotic peptide is an alpha-helix in dodecylphosphocholine micelles, sodium dodecylsulfate micelles, and trifluoroethanol/water solution. J.Biomol.NMR, 9, 127–135.

5 Bicellar Mixtures Mixtures of long chain and short chain lipids Coalesce to larger structures upon warming Isotropic Phase Magnetically Oriented Phase Extended Lamellar Phase 21 Low Temperature High Temperature

6 2 H NMR of Bicelles 2 1 2 H NMR distinguishes bicelle phases 2 H NMR Deuteron splittings reflect motional averaging of orientational dependent quadrupole interaction

7 Zwitterionic Bicellar Mixtures with/without SP-B C- TERM 2 1 2 1 DMPC-d 54 /DHPC SP-B C-TERM has little effect on transitions in mixtures of DMPC/DHPC (both zwitterionic) DMPC-d 54 /DMPC/DHPC (3:1:1) With 10% SP-B C-TERM (w/w)

8 SP-B C-TERM and Bicellar Mixtures with Anionic Lipids 2 1 2 1 DMPC-d 54 /DMPG/DHPC In lipid-only bicellar mixtures, anionic lipid lowers and sharpens the ribbon-to- extended lamellar transition. SP-B C-TERM further lowers the ribbon-to-extended lamellar transition Implies that SP-B C-TERM depends on the presence of anionic lipids to promote ribbon- micelle coalescence DMPC-d 54 /DMPG/DHPC (3:1:1) With 10% SP-B C-TERM (w/w)

9 Does SP-B C-TERM segregate DMPG? 2 1 2 1 DMPC /DMPG-d 54 /DHPC DMPG-d 54 and DMPC-d 54 report similar behaviours DMPC/DMPG-d 54 /DHPC (3:1:1) With 10% SP-B C-TERM (w/w) DMPC-d 54 /DMPG/DHPC (3:1:1) With 10% SP-B C-TERM (w/w)

10 How does Magainin 2 affect bicellar phase behaviour? 2 1 2 1 DMPC-d 54 /DMPG/DHPC Addition of Magainin 2 appeared to reverse the effect of DMPG on bicellar mixture phase behaviour Spectra similar to DMPC- d 54 /DHPC (4:1) bicelles Peptide-induced segregation of DMPG? DMPC-d 54 /DMPG/DHPC (3:1:1) With 10% Magainin 2 (w/w) DMPC-d 54 /DMPG/DHPC (3:1:1) With 10% SP-B C-TERM (w/w)

11 DMPC and DMPG appear to be in different environments in bicellar mixtures with Magainin 2 2 1 2 1 DMPC /DMPG-d 54 /DHPC Spectra suggest that Magainin 2 interaction promotes a distinct environment for DMPG (anionic lipid) Peptide-induced clustering anionic lipids? DMPC/DMPG-d 54 /DHPC (3:1:1) With 10% Magainin 2 (w/w)

12 Conclusions Peptide-induced reorganization of bicellar mixtures appears to be facilitated by the presence of anionic lipid SP-B C-TERM Promotes ribbon-to-extended lamellar coalescence at a lower temperature when anionic lipids are present Does not appear to involve separation of DMPG and DMPC Magainin 2 Appears to preferentially interact with anionic lipids Spectra suggest separation of anionic lipids, possibly clustering

13 Acknowledgements Supervisor: Michael R. Morrow Group Members: Gagandeep Sandhu Suhad Sbeih Collin Knight Collaborators: Valerie Booth Donna Jackman Funding Provided by:

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