SwePub - sökning: WFRF:(Pace Hudson)

Numrering	Referens	Omslagsbild	Hitta
1.	2021 swepub:Mat__t
2.	Abel, I, et al. (författare) Overview of the JET results with the ITER-like wall 2013 Ingår i: Nuclear Fusion. - : IOP Publishing. - 1741-4326 .- 0029-5515. ; 53:10, s. 104002- Tidskriftsartikel (refereegranskat)abstract Following the completion in May 2011 of the shutdown for the installation of the beryllium wall and the tungsten divertor, the first set of JET campaigns have addressed the investigation of the retention properties and the development of operational scenarios with the new plasma-facing materials. The large reduction in the carbon content (more than a factor ten) led to a much lower Z(eff) (1.2-1.4) during L- and H-mode plasmas, and radiation during the burn-through phase of the plasma initiation with the consequence that breakdown failures are almost absent. Gas balance experiments have shown that the fuel retention rate with the new wall is substantially reduced with respect to the C wall. The re-establishment of the baseline H-mode and hybrid scenarios compatible with the new wall has required an optimization of the control of metallic impurity sources and heat loads. Stable type-I ELMy H-mode regimes with H-98,H-y2 close to 1 and beta(N) similar to 1.6 have been achieved using gas injection. ELM frequency is a key factor for the control of the metallic impurity accumulation. Pedestal temperatures tend to be lower with the new wall, leading to reduced confinement, but nitrogen seeding restores high pedestal temperatures and confinement. Compared with the carbon wall, major disruptions with the new wall show a lower radiated power and a slower current quench. The higher heat loads on Be wall plasma-facing components due to lower radiation made the routine use of massive gas injection for disruption mitigation essential.
3.	Armanious, Antonius, 1981, et al. (författare) Probing the Separation Distance between Biological Nanoparticles and Cell Membrane Mimics Using Neutron Reflectometry with Sub-Nanometer Accuracy 2022 Ingår i: Journal of the American Chemical Society. - : American Chemical Society (ACS). - 1520-5126 .- 0002-7863. ; 144:45, s. 20726-20738 Tidskriftsartikel (refereegranskat)abstract Nanoparticle interactions with cellular membranes are controlled by molecular recognition reactions and regulate a multitude of biological processes, including virus infections, biological nanoparticle-mediated cellular communication, and drug delivery applications. Aided by the design of various supported cell membrane mimics, multiple methods have been employed to investigate these types of interactions, revealing information on nanoparticle coverage, interaction kinetics, as well as binding strength; however, precise quantification of the separation distance across which these delicate interactions occur remains elusive. Here, we demonstrate that carefully designed neutron reflectometry (NR) experiments followed by an attentive selection and application of suitable theoretical models offer a means to quantify the distance separating biological nanoparticles from a supported lipid bilayer (SLB) with sub-nanometer precision. The distance between the nanoparticles and SLBs was tuned by exploiting either direct adsorption or specific binding using DNA tethers with different conformations, revealing separation distances of around 1, 3, and 7 nm with nanometric accuracy. We also show that NR provides precise information on nanoparticle coverage, size distribution, material composition, and potential structural changes in the underlying planar SLB induced upon nanoparticle binding. The precision with which these parameters could be quantified should pave an attractive path for investigations of the interactions between nanoparticles and interfaces at length scales and resolutions that were previously inaccessible. This thus makes it possible to, for example, gain an in-depth understanding of the molecular recognition reactions of inorganic and biological nanoparticles with cellular membranes.
4.	Bally, Marta, 1981, et al. (författare) Lipid-Based Bioanalytical Sensors 2021 Ingår i: Handbook of Lipid Membranes Molecular, Functional, and Materials Aspects. - Boca Raton : CRC Press. - 9781466555730 ; , s. 241-270, s. 241-269 Bokkapitel (övrigt vetenskapligt/konstnärligt)abstract Lipid assemblies have attracted considerable interest as components in bioanalytical sensors. They provide a native-like environment for the immobilization of membrane proteins and for the study of membrane-related processes. Liposomes are also excellent bioanalytical assay components since selected functionalities can be added to the membrane while their aqueous interior can encapsulate a variety of molecules. This chapter highlights the potential of lipid assemblies in surface-based affinity sensors. It first describes how such sensors are created, providing an overview of lipid immobilization strategies together with a summary of the major transduction techniques used to probe binding at and transport through membrane interfaces. It then reviews the implementation of lipid-based sensors in the study of membrane proteins and membrane-mediated interactions, followed by a discussion of the potential of liposomes as nanoscale labels and as nanoreactors. Finally, it illustrates how external forces can be used to manipulate membrane component for biosensing applications.
5.	Junesch, Juliane, 1987, et al. (författare) Location-specific nanoplasmonic sensing of biomolecular binding to lipid membranes with negative curvature 2015 Ingår i: Nanoscale. - : Royal Society of Chemistry (RSC). - 2040-3372 .- 2040-3364. ; 7:37, s. 15080-15085 Tidskriftsartikel (refereegranskat)abstract The biochemical processes of cell membranes are sensitive to the geometry of the lipid bilayer. We show how plasmonic "nanowells" provide label-free real-time analysis of molecules on membranes with detection of preferential binding at negative curvature. It is demonstrated that norovirus accumulate in invaginations due to multivalent interactions with glycosphingolipids.
6.	Liu, Kang-Cheng, et al. (författare) Membrane insertion mechanism of the caveola coat protein Cavin1 2022 Ingår i: Proceedings of the National Academy of Sciences of the United States of America. - : Proceedings of the National Academy of Sciences. - 0027-8424 .- 1091-6490. ; 119:25 Tidskriftsartikel (refereegranskat)abstract Caveolae are small plasma membrane invaginations, important for control of membrane tension, signaling cascades, and lipid sorting. The caveola coat protein Cavin1 is essential for shaping such high curvature membrane structures. Yet, a mechanistic understanding of how Cavin1 assembles at the membrane interface is lacking. Here, we used model membranes combined with biophysical dissection and computational modeling to show that Cavin1 inserts into membranes. We establish that initial phosphatidylinositol (4, 5) bisphosphate [PI(4,5)P2]-dependent membrane adsorption of the trimeric helical region 1 (HR1) of Cavin1 mediates the subsequent partial separation and membrane insertion of the individual helices. Insertion kinetics of HR1 is further enhanced by the presence of flanking negatively charged disordered regions, which was found important for the coassembly of Cavin1 with Caveolin1 in living cells. We propose that this intricate mechanism potentiates membrane curvature generation and facilitates dynamic rounds of assembly and disassembly of Cavin1 at the membrane.
7.	Lubart, Quentin, 1989, et al. (författare) Lipid vesicle composition influences the incorporation and fluorescence properties of the lipophilic sulphonated carbocyanine dye SP-DiO 2020 Ingår i: Physical Chemistry Chemical Physics. - : Royal Society of Chemistry (RSC). - 1463-9084 .- 1463-9076. ; 22:16, s. 8781-8790 Tidskriftsartikel (refereegranskat)abstract Lipophilic carbocyanine dyes are widely used as fluorescent cell membrane probes in studies ranging from biophysics to cell biology. While they are extremely useful for qualitative observation of lipid structures, a major problem impairing quantitative studies is that the chemical environment of the lipid bilayer affects both the dye's insertion efficiency and photophysical properties. We present a systematic investigation of the sulphonated carbocyanine dye 3,3′-dioctadecyl-5,5′-di(4-sulfophenyl) (SP-DiO) and demonstrate how its insertion efficiency into pre-formed lipid bilayers and its photophysical properties therein determine its apparent fluorescence intensity in different lipid environments. For this purpose, we use large unilamellar vesicles (LUVs) made of lipids with distinct chain unsaturation, acyl chain length, head group charge, and with variation in membrane cholesterol content as models. Using a combination of absorbance, fluorescence emission, and fluorescence lifetime measurements we reveal that SP-DiO incorporates more efficiently into liquid disordered phases compared to gel phases. Moreover, incorporation into the latter phase is most efficient when the mismatch between the length of the lipid and dye hydrocarbon chains is small. Furthermore, SP-DiO incorporation is less efficient in LUVs composed of negatively charged lipids. Lastly, when cholesterol was included in the LUV membranes, we observed significant spectral shifts, consistent with dye aggregation. Taken together, our study highlights the complex interplay between membrane composition and labeling efficiency with lipophilic dyes and advocates for careful assessment of fluorescence data when attempting a quantitative analysis of fluorescence data with such molecules.
8.	Mapar, Mokhtar, 1983, et al. (författare) Spatiotemporal Kinetics of Supported Lipid Bilayer Formation on Glass via Vesicle Adsorption and Rupture 2018 Ingår i: Journal of Physical Chemistry Letters. - : American Chemical Society (ACS). - 1948-7185. ; 9:17, s. 5143-5149 Tidskriftsartikel (refereegranskat)abstract Supported lipid bilayers (SLBs) represent one of the most popular mimics of the cell membrane. Herein, we have used total internal reflection fluorescence microscopy for in-depth characterization of the vesicle-mediated SLB formation mechanism on a common silica-rich substrate, borosilicate glass. Fluorescently labeling a subset of vesicles allowed us to monitor the adsorption of individual labeled vesicles, resolve the onset of SLB formation from small seeds of SLB patches, and track their growth via SLB-edge-induced autocatalytic rupture of adsorbed vesicles. This made it possible to perform the first quantitative measurement of the SLB front velocity, which is shown to increase up to 1 order of magnitude with time. This effect can be classified as dramatic because in many other physical, chemical, or biological kinetic processes the front velocity is either constant or decreasing with time. The observation was successfully described with a theoretical model and Monte Carlo simulations implying rapid local diffusion of lipids upon vesicle rupture.
9.	Nadeem, Aftab, et al. (författare) A tripartite cytolytic toxin formed by Vibrio cholerae proteins with flagellum-facilitated secretion 2021 Ingår i: Proceedings of the National Academy of Sciences of the United States of America. - : Proceedings of the National Academy of Sciences. - 0027-8424 .- 1091-6490. ; 118:47 Tidskriftsartikel (refereegranskat)abstract Vibrio cholerae, responsible for outbreaks of cholera disease, is a highly motile organism by virtue of a single flagellum. We describe how the flagellum facilitates the secretion of three V. cholerae proteins encoded by a hitherto-unrecognized genomic island. The proteins MakA/B/E can form a tripartite toxin that lyses erythrocytes and is cytotoxic to cultured human cells. A structural basis for the cytolytic activity of the Mak proteins was obtained by X-ray crystallography. Flagellum-facilitated secretion ensuring spatially coordinated delivery of Mak proteins revealed a role for the V. cholerae flagellum considered of particular significance for the bacterial environmental persistence. Our findings will pave the way for the development of diagnostics and therapeutic strategies against pathogenic Vibrionaceae.
10.	Nadeem, Aftab, et al. (författare) Protein-lipid interaction at low pH induces oligomerization of the MakA cytotoxin from Vibrio cholerae 2022 Ingår i: eLIFE. - : eLife Sciences Publications, Ltd. - 2050-084X. ; 11 Tidskriftsartikel (refereegranskat)abstract The α-pore-forming toxins (α-PFTs) from pathogenic bacteria damage host cell membranes by pore formation. We demonstrate a remarkable, hitherto unknown mechanism by an α-PFT protein from Vibrio cholerae. As part of the MakA/B/E tripartite toxin, MakA is involved in membrane pore formation similar to other α-PFTs. In contrast, MakA in isolation induces tube-like structures in acidic endosomal compartments of epithelial cells in vitro. The present study unravels the dynamics of tubular growth, which occurs in a pH-, lipid-, and concentration-dependent manner. Within acidified organelle lumens or when incubated with cells in acidic media, MakA forms oligomers and remodels membranes into high-curvature tubes leading to loss of membrane integrity. A 3.7 Å cryo-electron microscopy structure of MakA filaments reveals a unique protein-lipid superstructure. MakA forms a pinecone-like spiral with a central cavity and a thin annular lipid bilayer embedded between the MakA transmembrane helices in its active α-PFT conformation. Our study provides insights into a novel tubulation mechanism of an α-PFT protein and a new mode of action by a secreted bacterial toxin.
11.	Pace, Hudson, 1982, et al. (författare) Preserved Transmembrane Protein Mobility in Polymer-Supported Lipid Bilayers Derived from Cell Membranes 2015 Ingår i: Analytical Chemistry. - : American Chemical Society (ACS). - 0003-2700 .- 1520-6882. ; 87:18, s. 9194-9203 Tidskriftsartikel (refereegranskat)abstract Supported lipid bilayers (SLBs) have contributed invaluable information about the physiochemical properties of cell membranes, but their compositional simplicity often limits the level of knowledge that can be gained about the structure and function of transmembrane proteins in their native environment. Herein, we demonstrate a generic protocol for producing polymer-supported lipid bilayers on glass surfaces that contain essentially all naturally occurring cell-membrane components of a cell line while still retaining transmembrane protein mobility and activity. This was achieved by merging vesicles made from synthetic lipids (PEGylated lipids and POPC lipids) with native cell-membrane vesicles to generate hybrid vesicles which readily rupture into a continuous polymer-supported lipid bilayer. To investigate the properties of these complex hybrid SLBs and particularly the behavior of their integral membrane-proteins, we used total internal reflection fluorescence imaging to study a transmembrane protease, β-secretase 1 (BACE1), whose ectoplasmic and cytoplasmic domains could both be specifically targeted with fluorescent reporters. By selectively probing the two different orientations of BACE1 in the resulting hybrid SLBs, the role of the PEG-cushion on transmembrane protein lateral mobility was investigated. The results reveal the necessity of having the PEGylated lipids present during vesicle adsorption to prevent immobilization of transmembrane proteins with protruding domains. The proteolytic activity of BACE1 was unadulterated by the sonication process used to merge the synthetic and native membrane vesicles; importantly it was also conserved in the SLB. The presented strategy could thus serve both fundamental studies of membrane biophysics and the production of surface-based bioanalytical sensor platforms.
12.	Pace, Hudson, 1982, et al. (författare) Structure and Composition of Native Membrane Derived Polymer-Supported Lipid Bilayers 2018 Ingår i: Analytical Chemistry. - : American Chemical Society (ACS). - 0003-2700 .- 1520-6882. ; 90:21, s. 13065-13072 Tidskriftsartikel (refereegranskat)abstract Over the last two decades, supported lipid bilayers (SLBs) have been extensively used as model systems to study cell membrane structure and function. While SLBs have been traditionally produced from simple lipid mixtures, there has been a recent surge in compositional complexity to better mimic cellular membranes and thereby bridge the gap between classic biophysical approaches and cell experiments. To this end, native cellular membrane derived SLBs (nSLBs) have emerged as a new category of SLBs. As a new type of biomimetic material, an analytical workflow must be designed to characterize its molecular composition and structure. Herein, we demonstrate how a combination of fluorescence microscopy, neutron reflectometry, and secondary ion mass spectrometry offers new insights on structure, composition, and quality of nSLB systems formed using so-called hybrid vesicles, which are a mixture of native membrane material and synthetic lipids. With this approach, we demonstrate that the nSLB formed a continuous structure with complete mixing of the synthetic and native membrane components and a molecular stoichiometry that essentially mirrors that of the hybrid vesicles. Furthermore, structural investigation of the nSLB revealed that PEGylated lipids do not significantly thicken the hydration layer between the bilayer and substrate when on silicon substrates; however, nSLBs do have more topology than their simpler, purely synthetic counterparts. Beyond new insights regarding the structure and composition of nSLB systems, this work also serves to guide future researchers in producing and characterizing nSLBs from their cellular membrane of choice.
13.	Peerboom, Nadia, 1990, et al. (författare) Cell Membrane Derived Platform To Study Virus Binding Kinetics and Diffusion with Single Particle Sensitivity 2018 Ingår i: Acs Infectious Diseases. - : American Chemical Society (ACS). - 2373-8227. ; 4:6, s. 944-953 Tidskriftsartikel (refereegranskat)abstract Discovery and development of new antiviral therapies essentially rely on two key factors: an in-depth understanding of the mechanisms involved in viral infection and the development of fast and versatile drug screening platforms. To meet those demands, we present a biosensing platform to probe virus-cell membrane interactions on a single particle level. Our method is based on the formation of supported lipid bilayers from cell membrane material. Using total internal reflection fluorescence microscopy, we report the contribution of viral and cellular components to the interaction kinetics of herpes simplex virus type 1 with the cell membrane. Deletion of glycoprotein C (gC), the main viral attachment glycoprotein, or deletion of heparan sulfate, an attachment factor on the cell membrane, leads to an overall decrease in association of virions to the membrane and faster dissociation from the membrane. In addition to this, we perform binding inhibition studies using the antiviral compound heparin to estimate its IC50 value. Finally, single particle tracking is used to characterize the diffusive behavior of the virus particles on the supported lipid bilayers. Altogether, our results promote this platform as a complement to existing bioanalytical assays, being at the interface between simplified artificial membrane models and live cell experiments.
14.	Pulkkinen, Lauri Ilmari Aurelius, et al. (författare) Simultaneous membrane and RNA binding by tick-borne encephalitis virus capsid protein 2023 Ingår i: PLoS Pathogens. - : Public Library of Science. - 1553-7366 .- 1553-7374. ; 19:2 Tidskriftsartikel (refereegranskat)abstract Tick-borne encephalitis virus is an enveloped, pathogenic, RNA virus in the family Flaviviridae, genus Flavivirus. Viral particles are formed when the nucleocapsid, consisting of an RNA genome and multiple copies of the capsid protein, buds through the endoplasmic reticulum membrane and acquires the viral envelope and the associated proteins. The coordination of the nucleocapsid components to the sites of assembly and budding are poorly understood. Here, we investigate the interactions of the wild-type and truncated capsid proteins with membranes with biophysical methods and model membrane systems. We show that capsid protein initially binds membranes via electrostatic interactions with negatively-charged lipids, which is followed by membrane insertion. Additionally, we show that membrane-bound capsid protein can recruit viral genomic RNA. We confirm the biological relevance of the biophysical findings by using mass spectrometry to show that purified virions contain negatively-charged lipids. Our results suggest that nucleocapsid assembly is coordinated by negatively-charged membrane patches on the endoplasmic reticulum and that the capsid protein mediates direct contacts between the nucleocapsid and the membrane.
15.	Romanelli, F, et al. (författare) Overview of the JET results 2011 Ingår i: Nuclear Fusion. - : IOP Publishing. - 1741-4326 .- 0029-5515. ; 51:9 Tidskriftsartikel (refereegranskat)abstract Since the last IAEA Conference JET has been in operation for one year with a programmatic focus on the qualification of ITER operating scenarios, the consolidation of ITER design choices and preparation for plasma operation with the ITER-like wall presently being installed in JET. Good progress has been achieved, including stationary ELMy H-mode operation at 4.5 MA. The high confinement hybrid scenario has been extended to high triangularity, lower ρand to pulse lengths comparable to the resistive time. The steady-state scenario has also been extended to lower ρand ν*and optimized to simultaneously achieve, under stationary conditions, ITER-like values of all other relevant normalized parameters. A dedicated helium campaign has allowed key aspects of plasma control and H-mode operation for the ITER non-activated phase to be evaluated. Effective sawtooth control by fast ions has been demonstrated with3He minority ICRH, a scenario with negligible minority current drive. Edge localized mode (ELM) control studies using external n = 1 and n = 2 perturbation fields have found a resonance effect in ELM frequency for specific q95values. Complete ELM suppression has, however, not been observed, even with an edge Chirikov parameter larger than 1. Pellet ELM pacing has been demonstrated and the minimum pellet size needed to trigger an ELM has been estimated. For both natural and mitigated ELMs a broadening of the divertor ELM-wetted area with increasing ELM size has been found. In disruption studies with massive gas injection up to 50% of the thermal energy could be radiated before, and 20% during, the thermal quench. Halo currents could be reduced by 60% and, using argon/deuterium and neon/deuterium gas mixtures, runaway electron generation could be avoided. Most objectives of the ITER-like ICRH antenna have been demonstrated; matching with closely packed straps, ELM resilience, scattering matrix arc detection and operation at high power density (6.2 MW m-2) and antenna strap voltages (42 kV). Coupling measurements are in very good agreement with TOPICA modelling. © 2011 IAEA, Vienna.
16.	Thorsteinsson, Konrad, 1991-, et al. (författare) FRET-Based Assay for the Quantification of Extracellular Vesicles and Other Vesicles of Complex Composition 2020 Ingår i: Analytical Chemistry. - : American Chemical Society (ACS). - 0003-2700 .- 1520-6882. ; 92:23, s. 15336-15343 Tidskriftsartikel (refereegranskat)abstract Research in the field of extracellular vesicles is rapidly expanding and finding footholds in many areas of medical science. However, the availability of methodologies to quantify the concentration of membrane material present in a sample remains limited. Herein, we present a novel approach for the quantification of vesicle material, specifically the quantification of the total lipid membrane surface area, found in a sample using Förster resonance energy transfer (FRET). In this assay, sonication is used to drive the fusion between vesicles in the sample to be quantified and liposomes containing a pair of FRET fluorophores. The change in emission spectrum upon vesicle fusion is directly related to the total membrane surface area of the sample added, and a calibration curve allows for the quantification of a variety of vesicle species, including enveloped viruses, bacterial outer membrane vesicles, and mammalian extracellular vesicles. Without extensive optimization of experimental parameters, we were able to quantify down to ∼109 vesicles/mL, using as little as 60 μL of the sample. The assay precision was comparable to that of a commercial nanoparticle tracking analysis system. While its limit of detection was slightly higher, the FRET assay is superior for the detection of small vesicles, as its performance is vesicle-size-independent. Taken together, the FRET assay is a simple, robust, and versatile method for the quantification of a variety of purified vesicle samples.
17.	Thorsteinsson, Konrad, 1991-, et al. (författare) Investigating glycan-mediated norovirus attachment to plasmamembrane bilayers using enzymatic digestion of host receptorstructures Annan publikation (övrigt vetenskapligt/konstnärligt)
18.	Thorsteinsson, Konrad, 1991- (författare) Probing and elucidating the dynamics of virus-membrane interaction via plasma membrane mimics 2023 Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract Virus infection is initiated by the attachment of a virion to a susceptible cell’s plasma membrane, in a highly dynamic and well-orchestrated process that encompasses various steps and engages numerous viral and cellular factors. These dynamic steps may include initial non-specific binding to ubiquitous cell-membrane ligands, diffusion across the membrane to a suitable entry site and virus engagement with various receptors and co-receptors on the cell surface. Molecules and processes involved may vary across virus species, but it is likely that in all cases the dynamics of virus-membrane interactions need to be carefully fine-tuned to optimize the entry process. Nevertheless, the investigation and characterization of the involved biomolecular interactions are often oversimplified to isolated virus-receptor pairs engagement, ignoring the complexity of the membrane and the dynamic behaviors of the interaction. This doctoral thesis aims to shed light on this critical sphere of virus-membrane interactions, focusing on how viruses dynamically engage with plasma membrane molecules to successfully infect the cell. To facilitate this research, we utilized an innovative approach of using plasma membrane mimics to explore how viruses dynamically interact with the plasma membrane across several chosen contexts.Central to this project was the development and optimization of cell membrane mimics consisting of supported lipid bilayers (SLBs) reflecting the compositional complexity of the membrane. In the first paper, we developed a method to quantify the membrane material in a lipid vesicle sample in terms of total membrane surface area. This method is vital for the full utilization of our membrane mimics, which in many cases require the mixing of different vesicles in specific ratios.Subsequently, cell membrane mimics of complex composition were used to investigate the molecular mechanisms modulating virus-membrane interactions in several chosen contexts. These investigations relied primarily on total internal reflection fluorescent microscopy to characterize the attachment and detachment behavior of individual virus particles from the membrane. Firstly, studies focused on norovirus, a pathogen that infects cells in the gastrointestinal tract. The virus is known to bind to histo-blood group antigens (HGBA), specific glycans found on intestinal epithelial cells membranes. However, susceptibility to norovirus infection varies between individuals, and the difference is correlated to the specific glycan expression of the intestinal cells. This suggests that the differences in susceptibility might be related to differences in virus-membrane interaction dynamics. Using membranes constructed from lipids extracted from human intestinal enteroids (HIE) derived from susceptible and non-susceptible individuals, it was determined that norovirus associates similarly to both susceptible and non-susceptible membranes but dissociates slower from susceptible membranes. Using native supported lipid bilayers (nSLBs), bilayers derived from plasma membrane extracts of the HIEs, we then investigated the contribution of different carbohydrate moieties to interaction kinetics. This investigation revealed that virus binding to fucose residues on HBGAs is only part of the interaction, and that the virus also binds to sialic acid to a similar degree. It was also found that binding occurs primarily to membrane glycoproteins, and not membrane glycolipids.nSLBs were further found to be highly useful complements to virological investigations in a number of contexts. First, we studied the effect of isoform 4 of apolipoprotein E (ApoE4) on herpes simplex virus 1 (HSV-1) binding kinetics to plasma membrane SLBs. ApoE4 is a lipid binding protein that has been found, in conjunction with HSV-1, to be a risk factor for Alzheimer's disease. We showed that membrane-bound ApoE4 does not affect HSV-1 binding kinetics, but that viruses coated with ApoE4 demonstrate faster dissociation from susceptible membranes than non-coated viruses, indicating that the protein facilitates the release of new virions from the infected cell. This provides a mechanistic understanding of the overall pro-viral effect of ApoE, observed in infection experiments.Second, nSLBs from respiratory epithelial cells were used to quantify binding of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) to the plasma membrane. SARS-CoV-2 has caused one of the largest pandemic in modern history and the virus has shown the ability to rapidly mutate, causing periodic surges of new cases, with newer strains spreading more easily. These mutations have often been linked to the viral spike glycoprotein, responsible for viral attachment and entry. Investigations using spike-decorated liposomes as virus-mimetics, revealed that virus-membrane interaction dynamics vary for different variants of concerns. Specifically, the late Omicron variant, a highly transmissible variant, shows significantly increased affinity to susceptible membranes. This increased affinity was primarily due to increased association to the membrane. Experiments also showed that membrane-bound heparan sulfate has an inhibiting effect on virus binding to ACE2, for earlier variants.In summary, we have successfully implemented membrane mimics with different levels of complexity to investigate virus-membrane interactions. This thesis demonstrates their potential in virology research in several contexts, including measuring the avidity of viruses to membranes, evaluating the relative contributions of different attachment factors to kinetics, and the influence of viral and cellular factors on binding.
19.	Ulmefors, Hanna, et al. (författare) Formation of Supported Lipid Bilayers Derived from Vesicles of Various Compositional Complexity on Conducting Polymer/Silica Substrates 2021 Ingår i: Langmuir. - : American Chemical Society (ACS). - 0743-7463 .- 1520-5827. ; 37:18, s. 5494-5505 Tidskriftsartikel (refereegranskat)abstract Supported lipid bilayers (SLBs) serve important roles as minimalistic models of cellular membranes in multiple diagnostic and pharmaceutical applications as well as in the strive to gain fundamental insights about their complex biological function. To further expand the utility of SLBs, there is a need to go beyond simple lipid compositions to thereby better mimic the complexity of native cell membranes, while simultaneously retaining their compatibility with a versatile range of analytical platforms. To meet this demand, we have in this work explored SLB formation on PEDOT:PSS/silica nanoparticle composite films and mesoporous silica films, both capable of transporting ions to an underlying conducting PEDOT:PSS film. The SLB formation process was evaluated by using the quartz crystal microbalance with dissipation (QCM-D) monitoring, total internal reflection fluorescence (TIRF) microscopy, and fluorescence recovery after photobleaching (FRAP) for membranes made of pure synthetic lipids with or without the reconstituted membrane protein β-secretase 1 (BACE1) as well as cell-derived native lipid vesicles containing overexpressed BACE1. The mesoporous silica thin film was superior to the PEDOT:PSS/silica nanoparticle composite, providing successful formation of bilayers with high lateral mobility and low defect density even for the most complex native cell membranes.
20.	Wahlsten, Olov, 1989, et al. (författare) Equilibrium-Fluctuation Analysis for Interaction Studies between Natural Ligands and Single G Protein-Coupled Receptors in Native Lipid Vesicles 2015 Ingår i: Langmuir. - : American Chemical Society (ACS). - 1520-5827 .- 0743-7463. ; 31:39, s. 10774-10780 Tidskriftsartikel (refereegranskat)abstract G protein-coupled receptors (GPCRs) constitute the most versatile family of cell-membrane receptors and have been increasingly identified as important mediators of many physiological functions. They also belong to one of the most central drug target classes, but current screening technologies are limited by the requirements of overexpression and stabilization of GPCRs. This calls for sensitivity-increased detection strategies preferably meeting single-molecule detection limits. This challenge is here addressed by employing total internal reflection fluorescence microscopy to characterize the interaction kinetics between CXCR3, a GPCR involved in inflammatory responses, and two of its chemokine ligands, CXCL10 and CXCL11. Fluorescence labeling of the lipid membrane, rather than the membrane protein itself, of GPCR-containing native vesicles, and immobilization of the corresponding ligand on the surface, enabled determination of the interaction kinetics using single-molecule equilibrium-fluctuation analysis. With a limit of detection of GPCR-containing vesicles in the low picomolar concentration regime, the results demonstrate the possibility to use inhibition in solution screening of high affinity ligands/drug candidates, which due to target-binding depletion of the inhibiting compounds is demanding using assays with more moderate detection limits.

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