Browsing by Author "Sun, Tzu-Lin"
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Item Attack on single Escherichia coli spheroplast by antimicrobial peptides(2015-08-13) Sun, Tzu-Lin; Huang, Huey W.; Hafner, Jason H.; McNew, James A.Studies of the molecular mechanisms of antimicrobial peptides (AMPs) have mostly been performed with lipid bilayers, as a substitute for cell membrane. Hence, there is a persistent question as to whether the action of AMPs on bacterial membranes can be reproduced on lipid bilayers. Valuable information was obtained recently from observing the actions of AMPs on E. coli and Bacillus subtilis by time-lapse fluorescence microscopy. The goal of my dissertation is to study the direct action of AMPs on the cytoplasmic membranes by using E. coli spheroplasts, the cell form from which the outer membranes have been removed. The key question is how to reveal the response of the spheroplast to AMPs. In our previous work, the aspiration method on giant unilamellar vesicle (GUV) has been demonstrated as very effective for researching membrane effects induced by peptides. This method is able to measure the membrane expansion due to peptide binding and simultaneously monitor membrane permeability by using dye indicators. In this work, a spray method was developed for introducing AMPs and customized the experimental procedures for performing the experiments of E. coli spheroplasts. The living state of cytoplasmic membrane makes it difficult to deduce the molecular events from the response of live cells. Hence, the physical methods which have been developed for researching peptide activity on lipid bilayers were practiced first. These methods include X-ray diffraction (XRD), oriented circular dichroism (OCD) and GUV aspiration. These methods were practiced by studying the question as to why a hydrocarbon-stapled peptide NYAD-1 drug was reported to have membrane permeating property. Melittin was selected as the representative of AMPs for the E. coli spheroplast experiments. To better understand the characteristics of melittin, the melittin activity on model lipid membrane was examined before advancing to the spehroplast experiment. The melittin transmembrane was proposed by correlating melittin binding on a lipid vesicle (aspirated GUV imaging) with structural studies in multilayers (XRD and OCD). This behavior was further determined by using fluorescence indicator to track the melittin distribution. The toroidal structure of melittin pore was also detected by grazing-angle X-ray anomalous diffraction. In the studies of NAYD-1 and melittin on a model membrane, our discovery of AMP's transmembrane enables us to clarify the pore-formation mechanism which has been disputed for decades. In addition, our past work on the physical property of E. coli spheroplast cytoplasmic membrane has indicated the existence of a lipid reservoir. The lipid reservoir dominates the surface tension by balancing the membrane folds. Finally, we used the aspiration method to hold a spheroplast so as to measure the change of the spheroplast membrane area in response to the AMPs' binding. Further, a fluorescence indicator which is able to associate with AMPs was used to monitor the peptide distribution and another fluorescence dye to monitor the molecule leakage. The spheroplast study shows that there are similarities and differences between the responses of spheroplasts and GUVs. The recent findings on the unique properties of spheroplast membranes are the key for understanding these results. Our work of understanding the AMPs activity on membrane is potentially applicable in improving peptide drug design and delivery for disease treatment.Item Interaction of Daptomycin with Lipid Bilayers: A Lipid Extracting Effect(American Chemical Society, 2014) Chen, Yen-Fei; Sun, Tzu-Lin; Sun, Yen; Huang, Huey W.Daptomycin is the first approved member of a new structural class of antibiotics, the cyclic lipopeptides. The peptide interacts with the lipid matrix of cell membranes, inducing permeability of the membrane to ions, but its molecular mechanism has been a puzzle. Unlike the ubiquitous membrane-acting host-defense antimicrobial peptides, daptomycin does not induce pores in the cell membranes. Thus, how it affects the permeability of a membrane to ions is not clear. We studied its interaction with giant unilamellar vesicles (GUVs) and discovered a lipid-extracting phenomenon that correlates with the direct action of daptomycin on bacterial membranes observed in a recent fluorescence microscopy study. Lipid extraction occurred only when the GUV lipid composition included phosphatidylglycerol and in the presence of Ca2+ ions, the same condition found to be necessary for daptomycin to be effective against bacteria. Furthermore, it occurred only when the peptide/lipid ratio exceeded a threshold value, which could be the basis of the minimal inhibitory concentration of daptomycin. In this first publication on the lipid extracting effect, we characterize its dependence on ions and lipid compositions. We also discuss possibilities for connecting the lipid extracting effect to the antibacterial activity of daptomycin.Item Membrane Permeability of Hydrocarbon-Cross-Linked Peptides(Biophysical Society, 2013-05) Sun, Tzu-Lin; Sun, Yen; Lee, Chang-Chun; Huang, Huey W.Schafmeister, Po, and Verdine (another study) introduced a method using a hydrocarbon linker (staple) to stabilize a peptide in a helical configuration. One intended goal of this scheme is to facilitate the delivery of peptide drugs into target cells. Here, we investigate whether stapled peptides are intrinsically membrane permeable, by performing a case study on a stapled 12-mer peptide named NYAD-1. We found that the native peptide CAI (an HIV-1 inhibitor) does not bind to lipid bilayers, however NYAD-1 indeed permeates through lipid bilayers even at low solution concentrations. To understand the reason for the membrane permeability, we investigated the physical properties of NYAD-1 as a function of bound peptide/lipid molar ratio P/L. We found that NYAD-1 spontaneously binds to a lipid bilayer. At low P/L, the peptide primarily binds on the polar-apolar interface with its helical axis parallel to the bilayer, which has the effect of stretching the membrane area and thinning the membrane. The membrane thinning reaches its maximum at P/L ~1/15-1/12 in DOPC bilayers. Additional bound peptides have little thinning effect and their helical axes are normal to the plane of bilayers. Thus, the stapled peptide has a membrane interaction behavior similar to helical antimicrobial peptides, such as magainin and melittin. We emphasize that not all peptides that bind to lipid bilayers in the a-helical form behave this way.Item Mode of Action of Antimicrobial Peptides on E. coli Spheroplasts(Cell Press, 2016) Sun, Yen; Sun, Tzu-Lin; Huang, Huey W.We investigated the phenomena of antimicrobial peptides (AMPs) directly attacking the cytoplasmic membranes of Escherichia coli spheroplasts. We developed a procedure for fluorescence recovery after photobleaching to examine dye leakage through bacterial membranes as AMPs in solution bound to the membranes. We found that the AMP binding did not increase the apparent membrane area of a spheroplast, contrary to the response of a lipid-bilayer vesicle, which always showed a membrane area expansion by AMP binding. The permeability through the bacterial membrane increased in a sigmoidal fashion as the AMP binding increased in time, exhibiting a cooperative behavior of AMPs. The analysis of fluorescence recovery after photobleaching showed that the fluxes of dye molecules into and out of the cell were consistent with diffusion of molecules through a number of pores that increased with binding of AMPs and then saturated to a steady level. We discovered a new, to our knowledge, experimental parameter called the flux rate that characterizes the AMP-induced permeability of dye molecules through bacterial membranes. The phenomena observed in bacterial membranes are consistent with the pore-forming activities of AMPs previously observed in lipid bilayers. The experimental value of the flux rate per pore is much smaller than a theoretical value that assumes no friction for the dye molecule’s permeation through the pore. We believe that experimental studies of the flux rate will be useful for further analysis of AMPs’ permeabilization mechanisms.Item The Atlastin C-terminal Tail is an Amphipathic Helix that Perturbs Bilayer Structure during Endoplasmic Reticulum Homotypic Fusion(American Society for Biochemistry and Molecular Biology, 2015) Faust, Joseph E.; Desai, Tanvi; Verma, Avani; Ulengin, Idil; Sun, Tzu-Lin; Moss, Tyler J.; Betancourt, Miguel A.; Huang, Huey W.; Lee, Tina; McNew, James A.Fusion of tubular membranes is required to form three-way junctions found in reticular subdomains of the endoplasmic reticulum (ER). The large GTPase Atlastin has recently been shown to drive ER membrane fusion and three-way junction formation. The mechanism of Atlastin-mediated membrane fusion is distinct from SNARE-mediated and many details remain unclear. In particular, the role of the amphipathic C-terminal tail of Atlastin is still unknown. We have found that a peptide corresponding to the Atlastin C-terminal tail binds to membranes as a parallel alpha helix, induces bilayer thinning, and increases acyl chain disorder. The function of the C-terminal tail is conserved in human Atlastin. Mutations in the C-terminal tail decrease fusion activity in vitro, but not GTPase activity, and impair Atlastin function in vivo. In the context of unstable lipid bilayers, the requirement for the C-terminal tail is abrogated. These data suggest that the C-terminal tail of Atlastin locally destabilizes bilayers to facilitate membrane fusion.Item Why hydrocarbon-cross-linked peptides are membrane permeable(2012) Sun, Tzu-Lin; Lee, Chang-Chun; Sun, Yen; Huang, Huey W.