Your search keyword '"MEMBRANE-PROTEINS"' showing total 275 results

1. Integrated proteomic and transcriptomic analysis of the Aedes aegypti eggshell

Author

Marinotti, Osvaldo, Ngo, Tuan, Kojin, Bianca B, Chou, Shao-Pei, Nguyen, Brian, Juhn, Jennifer, Carballar-Lejarazú, Rebeca, Marinotti, Pedro N, Jiang, Xiaofang, Walter, Marika F, Tu, Zhijian, Gershon, Paul D, and James, Anthony A

Subjects

Aedes aegypti, Eggshell, Chorion, Vitelline membrane, Estivation, Oogenesis, Mosquitoanopheles-gambiae, drosophila-melanogaster, vector mosquitos, molecular characterization, culex-quinquefasciatus, comparative genomics, chorion peroxidase, membrane-proteins, binding-proteins, odorant-binding

Published

2014

2. Effect of Cholesterol on the Structure and Composition of Glyco-DIBMA Lipid Particles

Author

Lenz, Julia, Larsen, Andreas Haahr, Keller, Sandro, Luchini, Alessandra, Lenz, Julia, Larsen, Andreas Haahr, Keller, Sandro, and Luchini, Alessandra

Abstract

Different amphiphilic co-polymers have been introduced to produce polymer–lipid particles with nanodisc structure composed of an inner lipid bilayer and polymer chains self-assembled as an outer belt. These particles can be used to stabilize membrane proteins in solution and enable their characterization by means of biophysical methods, including small-angle X-ray scattering (SAXS). Some of these co-polymers have also been used to directly extract membrane proteins together with their associated lipids from native membranes. Styrene/maleic acid and diisobutylene/maleic acid are among the most commonly used co-polymers for producing polymer–lipid particles, named SMALPs and DIBMALPs, respectively. Recently, a new co-polymer, named Glyco-DIBMA, was produced by partial amidation of DIBMA with the amino sugar N-methyl-d-glucosamine. Polymer–lipid particles produced with Glyco-DIBMA, named Glyco-DIBMALPs, exhibit improved structural properties and stability compared to those of SMALPs and DIBMALPs while retaining the capability of directly extracting membrane proteins from native membranes. Here, we characterize the structure and lipid composition of Glyco-DIBMALPs produced with either 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) or 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC). Glyco-DIBMALPs were also prepared with mixtures of either POPC or DMPC and cholesterol at different mole fractions. We estimated the lipid content in the Glyco-DIBMALPs and determined the particle structure and morphology by SAXS. We show that the Glyco-DIBMALPs are nanodisc-like particles whose size and shape depend on the polymer/lipid ratio. This is relevant for designing nanodisc particles with a tunable diameter according to the size of the membrane protein to be incorporated. We also report that the addition of >20 mol % cholesterol strongly perturbed the formation of Glyco-DIBMALPs. Altogether, we describe a detailed characterization of the Glyco-DIBMALPs, which provides, Different amphiphilic co-polymers have been introduced to produce polymer-lipid particles with nanodisc structure composed of an inner lipid bilayer and polymer chains self-assembled as an outer belt. These particles can be used to stabilize membrane proteins in solution and enable their characterization by means of biophysical methods, including small-angle X-ray scattering (SAXS). Some of these co-polymers have also been used to directly extract membrane proteins together with their associated lipids from native membranes. Styrene/maleic acid and diisobutylene/maleic acid are among the most commonly used co-polymers for producing polymer-lipid particles, named SMALPs and DIBMALPs, respectively. Recently, a new co-polymer, named Glyco-DIBMA, was produced by partial amidation of DIBMA with the amino sugar N-methyl-D-glucosamine. Polymer-lipid particles produced with Glyco-DIBMA, named Glyco-DIBMALPs, exhibit improved structural properties and stability compared to those of SMALPs and DIBMALPs while retaining the capability of directly extracting membrane proteins from native membranes. Here, we characterize the structure and lipid composition of Glyco-DIBMALPs produced with either 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) or 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC). Glyco-DIBMALPs were also prepared with mixtures of either POPC or DMPC and cholesterol at different mole fractions. We estimated the lipid content in the Glyco-DIBMALPs and determined the particle structure and morphology by SAXS. We show that the Glyco-DIBMALPs are nanodisc-like particles whose size and shape depend on the polymer/lipid ratio. This is relevant for designing nanodisc particles with a tunable diameter according to the size of the membrane protein to be incorporated. We also report that the addition of >20 mol % cholesterol strongly perturbed the formation of Glyco-DIBMALPs. Altogether, we describe a detailed characterization of the Glyco-DIBMALPs, which provi

Published

2023

3. Effect of Cholesterol on the Structure and Composition of Glyco-DIBMA Lipid Particles

Author

Julia Lenz, Andreas Haahr Larsen, Sandro Keller, and Alessandra Luchini

Subjects

DYNAMICS, MEMBRANE-PROTEINS, SMALL-ANGLE SCATTERING, PEPTIDES, COPOLYMER, Surfaces and Interfaces, BILAYER NANODISCS, INDIRECT FOURIER TRANSFORMATION, Condensed Matter Physics, PHOSPHOLIPIDS, MODEL, SOLUBILIZATION, Electrochemistry, General Materials Science, Spectroscopy

Abstract

Different amphiphilic co-polymers have been introduced to produce polymer–lipid particles with nanodisc structure composed of an inner lipid bilayer and polymer chains self-assembled as an outer belt. These particles can be used to stabilize membrane proteins in solution and enable their characterization by means of biophysical methods, including small-angle X-ray scattering (SAXS). Some of these co-polymers have also been used to directly extract membrane proteins together with their associated lipids from native membranes. Styrene/maleic acid and diisobutylene/maleic acid are among the most commonly used co-polymers for producing polymer–lipid particles, named SMALPs and DIBMALPs, respectively. Recently, a new co-polymer, named Glyco-DIBMA, was produced by partial amidation of DIBMA with the amino sugar N-methyl-d-glucosamine. Polymer–lipid particles produced with Glyco-DIBMA, named Glyco-DIBMALPs, exhibit improved structural properties and stability compared to those of SMALPs and DIBMALPs while retaining the capability of directly extracting membrane proteins from native membranes. Here, we characterize the structure and lipid composition of Glyco-DIBMALPs produced with either 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) or 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC). Glyco-DIBMALPs were also prepared with mixtures of either POPC or DMPC and cholesterol at different mole fractions. We estimated the lipid content in the Glyco-DIBMALPs and determined the particle structure and morphology by SAXS. We show that the Glyco-DIBMALPs are nanodisc-like particles whose size and shape depend on the polymer/lipid ratio. This is relevant for designing nanodisc particles with a tunable diameter according to the size of the membrane protein to be incorporated. We also report that the addition of >20 mol % cholesterol strongly perturbed the formation of Glyco-DIBMALPs. Altogether, we describe a detailed characterization of the Glyco-DIBMALPs, which provides relevant inputs for future application of these particles in the biophysical investigation of membrane proteins. Different amphiphilic co-polymers have been introduced to produce polymer-lipid particles with nanodisc structure composed of an inner lipid bilayer and polymer chains self-assembled as an outer belt. These particles can be used to stabilize membrane proteins in solution and enable their characterization by means of biophysical methods, including small-angle X-ray scattering (SAXS). Some of these co-polymers have also been used to directly extract membrane proteins together with their associated lipids from native membranes. Styrene/maleic acid and diisobutylene/maleic acid are among the most commonly used co-polymers for producing polymer-lipid particles, named SMALPs and DIBMALPs, respectively. Recently, a new co-polymer, named Glyco-DIBMA, was produced by partial amidation of DIBMA with the amino sugar N-methyl-D-glucosamine. Polymer-lipid particles produced with Glyco-DIBMA, named Glyco-DIBMALPs, exhibit improved structural properties and stability compared to those of SMALPs and DIBMALPs while retaining the capability of directly extracting membrane proteins from native membranes. Here, we characterize the structure and lipid composition of Glyco-DIBMALPs produced with either 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) or 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC). Glyco-DIBMALPs were also prepared with mixtures of either POPC or DMPC and cholesterol at different mole fractions. We estimated the lipid content in the Glyco-DIBMALPs and determined the particle structure and morphology by SAXS. We show that the Glyco-DIBMALPs are nanodisc-like particles whose size and shape depend on the polymer/lipid ratio. This is relevant for designing nanodisc particles with a tunable diameter according to the size of the membrane protein to be incorporated. We also report that the addition of >20 mol % cholesterol strongly perturbed the formation of Glyco-DIBMALPs. Altogether, we describe a detailed characterization of the Glyco-DIBMALPs, which provides relevant inputs for future application of these particles in the biophysical investigation of membrane proteins.

Published

2023

4. Glycans in autophagy, endocytosis and lysosomal functions

Subjects

GALECTIN-3, Sugar code, RECEPTOR, MEMBRANE-PROTEINS, Endolysosomal system, CELL BIOLOGY, GALACTOSIDE-BINDING-PROTEIN, CYTOPLASMIC TAIL, QUALITY-CONTROL, MOLECULAR-DYNAMICS, Lectins, Glycolipids, Glycoconjugates, ATG9 TRAFFICKING, Glycoproteins, O-GLCNACYLATION

Abstract

Glycans have been shown to function as versatile molecular signals in cells. This prompted us to look at their roles in endocytosis, endolysosomal system and autophagy. We start by introducing the cell biological aspects of these pathways, the concept of the sugar code, and provide an overview on the role of glycans in the targeting of lysosomal proteins and in lysosomal functions. Moreover, we review evidence on the regulation of endocytosis and autophagy by glycans. Finally, we discuss the emerging concept that cytosolic exposure of luminal glycans, and their detection by endogenous lectins, provides a mechanism for the surveillance of the integrity of the endolysosomal compartments, and serves their eventual repair or disposal.

Published

2021

5. Hetero-pentamerization determines mobility and conductance of Glycine receptor alpha 3 splice variants

Author

Veerle Lemmens, Bart Thevelein, Yana Vella, Svenja Kankowski, Julia Leonhard, Hideaki Mizuno, Susana Rocha, Bert Brône, Jochen C. Meier, and Jelle Hendrix

Subjects

DYNAMICS, Biochemistry & Molecular Biology, Glycine receptors, Ligand gated ion channels, Subunit counting, COLOCALIZATION, GEPHYRIN, Ligands, Synaptic Transmission, Cellular and Molecular Neuroscience, Receptors, Glycine, MAMMALIAN-CELLS, Image correlation spectroscopy, Pearson's correlation coefficient, SUBUNIT STOICHIOMETRY, SINGLE-MOLECULE, BETA-SUBUNIT, Molecular Biology, Pharmacology, Science & Technology, MEMBRANE-PROTEINS, Single-molecule fluorescence, Cell Biology, Protein co-assembly, Stoichiometry, DIFFUSION, Electrophysiology, Alternative Splicing, Mutation, Molecular Medicine, Patch clamp, Life Sciences & Biomedicine

Abstract

Glycine receptors (GlyRs) are ligand-gated pentameric chloride channels in the central nervous system. GlyR-α3 is a possible target for chronic pain treatment and temporal lobe epilepsy. Alternative splicing into K or L variants determines the subcellular fate and function of GlyR-α3, yet it remains to be shown whether its different splice variants can functionally co-assemble, and what the properties of such heteropentamers would be. Here, we subjected GlyR-α3 to a combined fluorescence microscopy and electrophysiology analysis. We employ masked Pearson's and dual-color spatiotemporal correlation analysis to prove that GlyR-α3 splice variants heteropentamerize, adopting the mobility of the K variant. Fluorescence-based single-subunit counting experiments revealed a variable and concentration ratio dependent hetero-stoichiometry. Via cell-attached single-channel electrophysiology we show that heteropentamers exhibit currents in between those of K and L variants. Our data are compatible with a model where α3 heteropentamerization fine-tunes mobility and activity of GlyR-α3 channels, which is important to understand and tackle α3 related diseases. ispartof: CELLULAR AND MOLECULAR LIFE SCIENCES vol:79 issue:11 ispartof: location:Switzerland status: published

Published

2022

6. Role of regulatory C‐terminal motifs in synaptic confinement of LRRTM2

Author

Vincent Studer, Matthieu Sainlos, Béatrice Tessier, Olivier Thoumine, Joris de Wit, Julia Chabbert, Konstantina Liouta, Ingrid Chamma, and Sebastien Benquet

Subjects

EXPRESSION, Cell Adhesion Molecules, Neuronal, Synaptogenesis, Nerve Tissue Proteins, Leucine-rich repeat, Biology, Hippocampus, REPEAT TRANSMEMBRANE PROTEINS, Synapse, Excitatory synapse, DOMAIN, synapse, membrane protein, TRAFFICKING, MOLECULE, Neural Cell Adhesion Molecules, Cells, Cultured, Science & Technology, MEMBRANE-PROTEINS, Membrane Proteins, cell adhesion, Cell Biology, General Medicine, Compartmentalization (psychology), NEUREXINS, Transmembrane protein, FAMILY, Cell biology, CELLS, Synapses, Excitatory postsynaptic potential, COMPLEXES, Life Sciences & Biomedicine, Neuronal Cell Adhesion Molecule, light microscopy

Abstract

Leucine Rich Repeat Transmembrane proteins (LRRTMs) are neuronal cell adhesion molecules involved in synapse development and plasticity. LRRTM2 is the most synaptogenic isoform of the family, and its expression is strongly restricted to excitatory synapses in mature neurons. However, the mechanisms by which LRRTM2 is trafficked and stabilized at synapses remain unknown. Here, we examine the role of LRRTM2 intracellular domain on its membrane expression and stabilization at excitatory synapses, using a knock-down strategy combined to single molecule tracking and super-resolution dSTORM microscopy. We show that LRRTM2 operates an important shift in mobility after synaptogenesis in hippocampal neurons. Knock-down of LRRTM2 during synapse formation reduced excitatory synapse density in mature neurons. Deletion of LRRTM2 C-terminal domain abolished the compartmentalization of LRRTM2 in dendrites and disrupted its synaptic enrichment. Furtheremore, we show that LRRTM2 diffusion is increased in the absence of its intracellular domain, and that the protein is more dispersed at synapses. Surprisingly, LRRTM2 confinement at synapses was strongly dependent on a YxxC motif in the C-terminal domain, but was independent of the PDZ-like binding motif ECEV. Finally, the nanoscale organization of LRRTM2 at excitatory synapses depended on its C-terminal domain, with involvement of both the PDZ-binding and YxxC motifs. Altogether, these results demonstrate that LRRTM2 trafficking and enrichment at excitatory synapses are dependent on its intracellular domain. ispartof: BIOLOGY OF THE CELL vol:113 issue:12 pages:492-506 ispartof: location:England status: published

Published

2021

7. Global fitting of multiple data frames from SEC-SAXS to investigate the structure of next-generation nanodiscs

Author

Barclay, Abigail, Johansen, Nicolai Tidemand, Tidemand, Frederik Grønbæk, Arleth, Lise, Pedersen, Martin Cramer, Barclay, Abigail, Johansen, Nicolai Tidemand, Tidemand, Frederik Grønbæk, Arleth, Lise, and Pedersen, Martin Cramer

Abstract

The combination of online size-exclusion chromatography and small-angle X-ray scattering (SEC-SAXS) is rapidly becoming a key technique for structural investigations of elaborate biophysical samples in solution. Here, a novel model-refinement strategy centred around the technique is outlined and its utility is demonstrated by analysing data series from several SEC-SAXS experiments on phospholipid bilayer nanodiscs. Using this method, a single model was globally refined against many frames from the same data series, thereby capturing the frame-to-frame tendencies of the irradiated sample. These are compared with models refined in the traditional manner, in which refinement is based on the average profile of a set of consecutive frames from the same data series without an in-depth comparison of individual frames. This is considered to be an attractive model-refinement scheme as it considerably lowers the total number of parameters refined from the data series, produces tendencies that are automatically consistent between frames, and utilizes a considerably larger portion of the recorded data than is often performed in such experiments. Additionally, a method is outlined for correcting a measured UV absorption signal by accounting for potential peak broadening by the experimental setup.

Published

2022

8. Connections between Exoproteome Heterogeneity and Virulence in the Oral Pathogen Aggregatibacter actinomycetemcomitans

Author

Yanyan Fu, Sandra Maaβ, Marines du Teil Espina, Anouk H. G. Wolters, Yanan Gong, Anne de Jong, Erwin Raangs, Girbe Buist, Johanna Westra, Dörte Becher, Jan Maarten van Dijl, Molecular Genetics, Microbes in Health and Disease (MHD), Groningen Institute for Organ Transplantation (GIOT), Translational Immunology Groningen (TRIGR), and University of Groningen

Subjects

JP2 CLONE, GENES, Physiology, MEMBRANE-PROTEINS, TIGHT-ADHERENCE, AGGRESSIVE PERIODONTITIS, virulence factors, exoproteome, Biochemistry, Microbiology, Aggregatibacter actinomycetemcomitans, LEUKOTOXIN, Computer Science Applications, secreted proteins, GALLERIA-MELLONELLA, virulence, Modeling and Simulation, Genetics, serotype, Molecular Biology, SUBCELLULAR-LOCALIZATION, Ecology, Evolution, Behavior and Systematics, ACTINOBACILLUS-ACTINOMYCETEMCOMITANS, STAPHYLOCOCCUS-AUREUS

Abstract

Aggregatibacter actinomycetemcomitans is a Gram-negative bacterial pathogen associated with severe periodontitis and nonoral diseases. Clinical isolates of A. actinomycetemcomitans display a rough (R) colony phenotype with strong adherent properties. Upon prolonged culturing, nonadherent strains with a smooth (S) colony phenotype emerge. To date, most virulence studies on A. actinomycetemcomitans have been performed with S strains of A. actinomycetemcomitans, whereas the virulence of clinical R isolates has received relatively little attention. Since the extracellular proteome is the main bacterial reservoir of virulence factors, the present study was aimed at a comparative analysis of this subproteome fraction for a collection of R isolates and derivative S strains, in order to link particular proteins to the virulence of A. actinomycetemcomitans with serotype b. To assess the bacterial virulence, we applied different infection models based on larvae of the greater wax moth Galleria mellonella, a human salivary gland-derived epithelial cell line, and freshly isolated neutrophils from healthy human volunteers. A total number of 351 extracellular A. actinomycetemcomitans proteins was identified by mass spectrometry, with the S strains consistently showing more extracellular proteins than their parental R isolates. A total of 50 known extracellular virulence factors was identified, of which 15 were expressed by all investigated bacteria. Importantly, the comparison of differences in exoproteome composition and virulence highlights critical roles of 10 extracellular proteins in the different infection models. Together, our findings provide novel clues for understanding the virulence of A. actinomycetemcomitans and for development of potential preventive or therapeutic avenues to neutralize this important oral pathogen.IMPORTANCE Periodontitis is one of the most common inflammatory diseases worldwide, causing high morbidity and decreasing the quality of life of millions of people. The bacterial pathogen Aggregatibacter actinomycetemcomitans is strongly associated with aggressive forms of periodontitis. Moreover, it has been implicated in serious nonoral infections, including endocarditis and brain abscesses. Therefore, it is important to investigate how A. actinomycetemcomitans can cause disease. In the present study, we applied a mass spectrometry approach to make an inventory of the virulence factors secreted by different clinical A. actinomycetemcomitans isolates and derivative strains that emerged upon culturing. We subsequently correlated the secreted virulence factors to the pathogenicity of the investigated bacteria in different infection models. The results show that a limited number of extracellular virulence factors of A. actinomycetemcomitans have central roles in pathogenesis, indicating that they could be druggable targets to prevent or treat oral disease.

Published

2022

9. Quantitative Proteomic Analysis of the Central Amygdala in Neuropathic Pain Model Rats

Author

Andrew S.C. Rice, Kersti Karu, David L.H. Bennett, Ana Antunes-Martins, Benjamin Thomas, Min Fang, Richard S. Swanwick, William A. Foster, Eiji Yoshimi, Stephen B. McMahon, Amparo Novejarque-Gadea, Kenji Okuse, Wellcome Trust, and Commission of the European Communities

Subjects

Proteomics, DORSAL-ROOT GANGLIA, 0301 basic medicine, Biochemistry, stable isotope dimethyl labeling, Rats, Sprague-Dawley, ACTIVATION, Tandem Mass Spectrometry, SYNAPTIC PLASTICITY, NEURONS, proteomic, mass spectrometry, biology, MEMBRANE-PROTEINS, Central nucleus of the amygdala, Chronic pain, PEPTIDES, amygdala, medicine.anatomical_structure, Nociception, DOUBLECORTIN, Neuropathic pain, 03 Chemical Sciences, Life Sciences & Biomedicine, EXPRESSION, Biochemistry & Molecular Biology, medicine.medical_specialty, Doublecortin Protein, Amygdala, Biochemical Research Methods, 03 medical and health sciences, Internal medicine, medicine, Animals, spinal nerve transection, LC-MS/MS, neuropathic pain, Science & Technology, 030102 biochemistry & molecular biology, business.industry, Central Amygdaloid Nucleus, MASS-SPECTROMETRY, General Chemistry, 06 Biological Sciences, medicine.disease, Spinal cord, Rats, Doublecortin, 030104 developmental biology, Endocrinology, Membrane protein, MARKER, biology.protein, Neuralgia, business

Abstract

Pain and emotional distress have a reciprocal relation. The amygdala has been implicated in emotional processing. The central nucleus of the amygdala (CeA) receives nociceptive information from the dorsal horn of spinal cord and is responsible for the central plasticity in chronic pain. Neuropathic pain is a type of severe chronic pain and can be strongly influenced by emotional components. Plastic changes in the CeA may play a key role in the development or maintenance or both of neuropathic pain. We studied the expression levels of proteins in the CeA of spinal nerve transection (SNT) model rats. Total tissue lysate proteins were separated by two-dimensional-gel electrophoresis (2D-PAGE). Gels from different time points were compared using Progenesis SameSpot software, and the spots with Fold Change greater than 2 were excised for protein identification by mass spectrometry. We identified more than 50 cytosolic proteins as significantly altered in their expression levels in the CeA of SNT rats, and most of these changes have been validated at mRNA levels by qRT-PCR. We also identified more than 40 membrane proteins as notably up- or down-regulated in the CeA of SNT model rats relative to a control using stable isotope dimethyl labeling nano-LC-MS/MS based proteomics and found that one such protein, doublecortin (DCX), a microtubule-associated protein expressed by neuronal precursor cells during development, is specifically localized in the membrane fraction without changes in total amount of the protein. Immunohistochemistry showed that doublecortin is expressed in processes in the CeA of rats 7 and 21 days after SNT surgery, suggesting that doublecortin is one of the proteins that may contribute to the plastic changes, namely, redevelopment or rewiring of neural networks, in the CeA in the neuropathic pain model. These dysregulated proteins may play roles in reciprocal relationships between pain and psychological distress in the amygdala and contribute to central sensitization. Data are available via ProteomeXchange with identifier PXD017473.

Published

2020

10. Poor old pores-The challenge of making and maintaining nuclear pore complexes in aging

Subjects

nucleocytoplasmic transport, chronological aging, MEMBRANE-PROTEINS, NONSPECIFIC COMPETITION, replicative aging, FG-NUCLEOPORINS, DAMAGED PROTEINS, REPLICATIVE LIFE-SPAN, SACCHAROMYCES-CEREVISIAE, nuclear pore complex assembly, SKELETAL-MUSCLE, ASYMMETRIC SEGREGATION, OXIDATIVE STRESS, NUCLEOCYTOPLASMIC TRANSPORT DEFECTS

Abstract

The nuclear pore complex (NPC) is the sole gateway to the nuclear interior, and its function is essential to all eukaryotic life. Controlling the functionality of NPCs is a tremendous challenge for cells. Firstly, NPCs are large structures, and their complex assembly does occasionally go awry. Secondly, once assembled, some components of the NPC persist for an extremely long time and, as a result, are susceptible to accumulate damage. Lastly, a significant proportion of the NPC is composed of intrinsically disordered proteins that are prone to aggregation. In this review, we summarize how the quality of NPCs is guarded in young cells and discuss the current knowledge on the fate of NPCs during normal aging in different tissues and organisms. We discuss the extent to which current data supports a hypothesis that NPCs are poorly maintained during aging of nondividing cells, while in dividing cells the main challenge is related to the assembly of new NPCs. Our survey of current knowledge points toward NPC quality control as an important node in aging of both dividing and nondividing cells. Here, the loss of protein homeostasis during aging is central and the NPC appears to both be impacted by, and to drive, this process.

Published

2020

11. Poor old pores-The challenge of making and maintaining nuclear pore complexes in aging

Author

Anton Steen, Irina L Rempel, and Liesbeth M. Veenhoff

Subjects

0301 basic medicine, Aging, NONSPECIFIC COMPETITION, Normal aging, Protein Homeostasis, Biology, Intrinsically disordered proteins, Biochemistry, DAMAGED PROTEINS, REPLICATIVE LIFE-SPAN, SACCHAROMYCES-CEREVISIAE, 03 medical and health sciences, nuclear pore complex assembly, 0302 clinical medicine, State‐of‐the‐Art Review, otorhinolaryngologic diseases, Animals, Homeostasis, Humans, ASYMMETRIC SEGREGATION, Nuclear pore, OXIDATIVE STRESS, Molecular Biology, NUCLEOCYTOPLASMIC TRANSPORT DEFECTS, nucleocytoplasmic transport, chronological aging, MEMBRANE-PROTEINS, Cell Biology, replicative aging, FG-NUCLEOPORINS, Cell biology, stomatognathic diseases, 030104 developmental biology, Membrane protein, 030220 oncology & carcinogenesis, Nuclear Pore, SKELETAL-MUSCLE, Function (biology)

Abstract

The nuclear pore complex (NPC) is the sole gateway to the nuclear interior, and its function is essential to all eukaryotic life. Controlling the functionality of NPCs is a tremendous challenge for cells. Firstly, NPCs are large structures, and their complex assembly does occasionally go awry. Secondly, once assembled, some components of the NPC persist for an extremely long time and, as a result, are susceptible to accumulate damage. Lastly, a significant proportion of the NPC is composed of intrinsically disordered proteins that are prone to aggregation. In this review, we summarize how the quality of NPCs is guarded in young cells and discuss the current knowledge on the fate of NPCs during normal aging in different tissues and organisms. We discuss the extent to which current data supports a hypothesis that NPCs are poorly maintained during aging of nondividing cells, while in dividing cells the main challenge is related to the assembly of new NPCs. Our survey of current knowledge points toward NPC quality control as an important node in aging of both dividing and nondividing cells. Here, the loss of protein homeostasis during aging is central and the NPC appears to both be impacted by, and to drive, this process., The nuclear pore complex (NPC) is the sole gateway to the nuclear interior, and its function is essential to all eukaryotic life. We summarize how the quality of NPCs is guarded in young cells and discuss the current knowledge on the fate of NPCs during normal aging in different tissues and organisms. Our survey points towards NPC quality control as an important node in aging of dividing and nondividing cells.

Published

2020

12. Global fitting of multiple data frames from SEC-SAXS to investigate the structure of next-generation nanodiscs

Author

Abigail Barclay, Nicolai Tidemand Johansen, Frederik Grønbæk Tidemand, Lise Arleth, and Martin Cramer Pedersen

Subjects

DYNAMICS, COMPLEX, phospholipid nanodiscs, MEMBRANE-PROTEINS, model refinement, SCATTERING DATA, ANGLE X-RAY, small-angle scattering, size-exclusion chromatography, MODEL, X-Ray Diffraction, Structural Biology, NEUTRON-SCATTERING, SYSTEMS, Scattering, Small Angle, NANOPARTICLES, Chromatography, Gel, PHOSPHOLIPID-BILAYER NANODISCS, Phospholipids

Abstract

The combination of online size-exclusion chromatography and small-angle X-ray scattering (SEC–SAXS) is rapidly becoming a key technique for structural investigations of elaborate biophysical samples in solution. Here, a novel model-refinement strategy centred around the technique is outlined and its utility is demonstrated by analysing data series from several SEC–SAXS experiments on phospholipid bilayer nanodiscs. Using this method, a single model was globally refined against many frames from the same data series, thereby capturing the frame-to-frame tendencies of the irradiated sample. These are compared with models refined in the traditional manner, in which refinement is based on the average profile of a set of consecutive frames from the same data series without an in-depth comparison of individual frames. This is considered to be an attractive model-refinement scheme as it considerably lowers the total number of parameters refined from the data series, produces tendencies that are automatically consistent between frames, and utilizes a considerably larger portion of the recorded data than is often performed in such experiments. Additionally, a method is outlined for correcting a measured UV absorption signal by accounting for potential peak broadening by the experimental setup.

Published

2021

13. Small Protein Enrichment Improves Proteomics Detection of sORF Encoded Polypeptides

Author

Marlies K. R. Peeters, Igor Fijalkowski, and Petra Van Damme

Subjects

COMPUTATIONAL PLATFORM, AMPHIPOLS, SEPs, Computational biology, Biology, QH426-470, Proteomics, Genome, 03 medical and health sciences, proteomics, Protein purification, Genetics, Genetics(clinical), PEPTIDE, Ribosome profiling, ORFS, Genetics (clinical), Original Research, 030304 developmental biology, 0303 health sciences, IDENTIFICATION, STABILITY, MEMBRANE-PROTEINS, 030302 biochemistry & molecular biology, peptidomics, Biology and Life Sciences, Translation (biology), Genome project, Open reading frame, riboproteogenomics, Mathematics and Statistics, DISCOVERY, Molecular Medicine, sORFs, amphipathic polymers

Abstract

With the rapid growth in the number of sequenced genomes, genome annotation efforts became almost exclusively reliant on automated pipelines. Despite their unquestionable utility, these methods have been shown to underestimate the true complexity of the studied genomes, with small open reading frames (sORFs; ORFs typically considered shorter than 300 nucleotides) and, in consequence, their protein products (sORF encoded polypeptides or SEPs) being the primary example of a poorly annotated and highly underexplored class of genomic elements. With the advent of advanced translatomics such as ribosome profiling, reannotation efforts have progressed a great deal in providing translation evidence for numerous, previously unannotated sORFs. However, proteomics validation of these riboproteogenomics discoveries remains challenging due to their short length and often highly variable physiochemical properties. In this work we evaluate and compare tailored, yet easily adaptable, protein extraction methodologies for their efficacy in the extraction and concomitantly proteomics detection of SEPs expressed in the prokaryotic model pathogen Salmonella typhimurium (S. typhimurium). Further, an optimized protocol for the enrichment and efficient detection of SEPs making use of the of amphipathic polymer amphipol A8-35 and relying on differential peptide vs. protein solubility was developed and compared with global extraction methods making use of chaotropic agents. Given the versatile biological functions SEPs have been shown to exert, this work provides an accessible protocol for proteomics exploration of this fascinating class of small proteins.

Published

2021

14. Probing solution structure of the pentameric ligand-gated ion channel GLIC by small-angle neutron scattering

Author

Lycksell, Marie, Rovsnik, Urska, Bergh, Cathrine, Johansen, Nicolai T., Martel, Anne, Porcar, Lionel, Arleth, Lise, Howard, Rebecca J., Lindahl, Erik, Lycksell, Marie, Rovsnik, Urska, Bergh, Cathrine, Johansen, Nicolai T., Martel, Anne, Porcar, Lionel, Arleth, Lise, Howard, Rebecca J., and Lindahl, Erik

Abstract

Pentameric ligand-gated ion channels undergo subtle conformational cycling to control electrochemical signal transduction in many kingdoms of life. Several crystal structures have now been reported in this family, but the functional relevance of such models remains unclear. Here, we used small-angle neutron scattering (SANS) to probe ambient solution-phase properties of the pHgated bacterial ion channel GLIC under resting and activating conditions. Data collection was optimized by inline paused-flow size-exclusion chromatography, and exchanging into deuterated detergent to hide the micelle contribution. Resting-state GLIC was the best-fit crystal structure to SANS curves, with no evidence for divergent mechanisms. Moreover, enhanced-sampling moleculardynamics simulations enabled differential modeling in resting versus activating conditions, with the latter corresponding to an intermediate ensemble of both the extracellular and transmembrane domains. This work demonstrates state-dependent changes in a pentameric ion channel by SANS, an increasingly accessible method for macromolecular characterization with the coming generation of neutron sources.

Published

2021

15. Lipid-bound ApoE3 self-assemble into elliptical disc-shaped particles

Author

Larsen, Andreas Haahr, Johansen, Nicolai Tidemand, Gajhede, Michael, Arleth, Lise, Midtgaard, Soren Roi, Larsen, Andreas Haahr, Johansen, Nicolai Tidemand, Gajhede, Michael, Arleth, Lise, and Midtgaard, Soren Roi

Abstract

Apolipoproteins are vital to lipid metabolism and cholesterol transport in the human body. Here we present a structural study of the lipid-bound particles formed by ApoE3 in a full-length and a truncated version. The particles are formed with, respectively, POPC and DMPC and investigated by small-angle X-ray scattering and negative stain electron microscopy. We find that lipid-bound ApoE3 particles are elliptical, disc-shaped particles composed of a central lipid bilayer encircled by two amphipathic ApoE3 proteins. We went on to investigate a truncated form of ApoE3 containing only residue 80 to 255 (ApoE380-255), which is the central helical repeat segment of ApoE3. The lipid-bound ApoE380-255 particles are found to have the same morphology as the particles with full-length ApoE3. However, they are larger, and form more heterogeneous discoidal structures with four proteins per particle. This behavior is in contrast to ApoA1 where the highly similar helical repeat domain determines the size and stoichiometry of the formed particles both in the case of full-length and truncated ApoA1. Our data hence points towards different mechanisms for lipid bilayer structural modulation by ApoA1 and ApoE3 due to different roles of the non-repeat segments.

Published

2021

16. Endoplasmic reticulum phospholipid scramblase activity revealed after protein reconstitution into giant unilamellar vesicles containing a photostable lipid reporter

Author

Mathiassen, Patricia P. M., Menon, Anant K., Pomorski, Thomas Guenther, Mathiassen, Patricia P. M., Menon, Anant K., and Pomorski, Thomas Guenther

Abstract

Transbilayer movement of phospholipids in biological membranes is mediated by a diverse set of lipid transporters. Among them are scramblases that facilitate a rapid bi-directional movement of lipids without metabolic energy input. Here, we established a new fluorescence microscopy-based assay for detecting phospholipid scramblase activity of membrane proteins upon their reconstitution into giant unilamellar vesicles formed from proteoliposomes by electroformation. The assay is based on chemical bleaching of fluorescence of a photostable ATTO-dye labeled phospholipid with the membrane-impermeant reductant sodium dithionite. We demonstrate that this new methodology is suitable for the study of the scramblase activity of the yeast endoplasmic reticulum at single vesicle level.

Published

2021

17. Assembly of γ-secretase occurs through stable dimers after exit from the endoplasmic reticulum

Author

Wim Annaert, Katleen Dillen, Randy Schekman, Ragna Sannerud, Bertrand Kleizen, Rosanne Wouters, David Demedts, Christine Michiels, Abril Escamilla Ayala, and Wendy Vermeire

Subjects

Models, Molecular, Endopeptidases/chemistry, Protein Conformation, Vesicular Transport Proteins, Wistar, Golgi Apparatus, Endoplasmic Reticulum, Mice, Neurons/cytology, 0302 clinical medicine, COP-Coated Vesicles/chemistry, Models, COMPLEX COMPONENT, PSEN1, Protein Isoforms, Endoplasmic Reticulum/metabolism, COPII, Cerebral Cortex, Neurons, Golgi Apparatus/metabolism, 0303 health sciences, Budding, Tumor, biology, MEMBRANE-PROTEINS, Vesicle, ER RETENTION, Cell biology, AMYLOID PRECURSOR PROTEIN, ALZHEIMERS-DISEASE, COP-Coated Vesicles, Life Sciences & Biomedicine, Cerebral Cortex/cytology, Protein Binding, Signal Transduction, STRUCTURAL BASIS, COPII VESICLES, PRESENILIN-1, Protein subunit, Primary Cell Culture, Protein Isoforms/chemistry, Nicastrin, Amyloid Precursor Protein Secretases/chemistry, Presenilin, Cell Line, Vesicular Transport Proteins/genetics, 03 medical and health sciences, QUALITY-CONTROL, Cell Line, Tumor, Presenilin-1/chemistry, Endopeptidases, Presenilin-1, Animals, Humans, Rats, Wistar, 030304 developmental biology, Science & Technology, Endoplasmic reticulum, Membrane Proteins, Molecular, Membrane Proteins/chemistry, Biological Transport, Cell Biology, Fibroblasts, Rats, Fibroblasts/cytology, Gene Expression Regulation, biology.protein, INTERMEDIATE COMPARTMENT, Amyloid Precursor Protein Secretases, Protein Multimerization, 030217 neurology & neurosurgery

Abstract

γ-Secretase affects many physiological processes through targeting >100 substrates; malfunctioning links γ-secretase to cancer and Alzheimer's disease. The spatiotemporal regulation of its stoichiometric assembly remains unresolved. Fractionation, biochemical assays, and imaging support prior formation of stable dimers in the ER, which, after ER exit, assemble into full complexes. In vitro ER budding shows that none of the subunits is required for the exit of others. However, knockout of any subunit leads to the accumulation of incomplete subcomplexes in COPII vesicles. Mutating a DPE motif in presenilin 1 (PSEN1) abrogates ER exit of PSEN1 and PEN-2 but not nicastrin. We explain this by the preferential sorting of PSEN1 and nicastrin through Sec24A and Sec24C/D, respectively, arguing against full assembly before ER exit. Thus, dimeric subcomplexes aided by Sec24 paralog selectivity support a stepwise assembly of γ-secretase, controlling final levels in post-Golgi compartments. ispartof: JOURNAL OF CELL BIOLOGY vol:220 issue:9 ispartof: location:United States status: published

Published

2021

18. Anthrax toxin requires ZDHHC5-mediated palmitoylation of its surface-processing host enzymes

Author

Oksana A. Sergeeva and F. Gisou van der Goot

Subjects

Pore Forming Cytotoxic Proteins, animal structures, receptor, Anthrax toxin, Endocytic cycle, Aerolysin, medicine.disease_cause, 03 medical and health sciences, Membrane Microdomains, Palmitoylation, Acetyltransferases, Cell Line, Tumor, medicine, Humans, Subtilisins, cleavage, protective antigen, zdhhc5, Furin, bacterial toxins, 030304 developmental biology, Antigens, Bacterial, 0303 health sciences, Multidisciplinary, biology, Chemistry, Toxin, Cell Membrane, fungi, 030302 biochemistry & molecular biology, proprotein convertases, plasma-membrane, Cell Biology, Biological Sciences, Endocytosis, s-palmitoylation, Cell biology, Protein Transport, PNAS Plus, Membrane protein, Bacillus anthracis, Host-Pathogen Interactions, membrane-proteins, biology.protein, anthrax toxin, Proprotein Convertases, furin, e-cadherin, HeLa Cells

Abstract

Significance Toxins exploit numerous pathways of their host cells to gain cellular entry and promote intoxication. Therefore, studying the action of toxins allows us to better understand basic mechanisms in cell biology. In this study, we found that ZDHHC5, an enzyme that adds a lipid posttranslational modification to cysteines of proteins, is responsible for allowing anthrax toxin to enter cells. This enzyme acts on proprotein convertases that are needed to cleave these toxins to their active forms. ZDHHC5 does not affect the enzymatic activity of these proteases, but allows them to encounter the toxin by favoring their partitioning in microdomains on the cell surface, domains where the toxin has previously been shown to preferentially reside., The protein acyl transferase ZDHHC5 was recently proposed to regulate trafficking in the endocytic pathway. Therefore, we explored the function of this enzyme in controlling the action of bacterial toxins. We found that ZDHHC5 activity is required for two very different toxins: the anthrax lethal toxin and the pore-forming toxin aerolysin. Both of these toxins have precursor forms, the protoxins, which can use the proprotein convertases Furin and PC7 for activation. We show that ZDHHC5 indeed affects the processing of the protoxins to their active forms. We found that Furin and PC7 can both be S-palmitoylated and are substrates of ZDHHC5. The impact of ZDHHC5 on Furin/PC7-mediated anthrax toxin cleavage is dual, having an indirect and a direct component. First, ZDHHC5 affects the homeostasis and trafficking of a subset of cellular proteins, including Furin and PC7, presumably by affecting the endocytic/recycling pathway. Second, while not inhibiting the protease activity per se, ZDHHC5-mediated Furin/PC7 palmitoylation is required for the cleavage of the anthrax toxin. Finally, we show that palmitoylation of Furin and PC7 promotes their association with plasma membrane microdomains. Both the receptor-bound toxin and the convertases are of very low abundance at the cell surface. Their encounter is unlikely on reasonable time scales. This work indicates that palmitoylation drives their encounter in specific domains, allowing processing and thereby intoxication of the cell.

Published

2019

19. Glycans in autophagy, endocytosis and lysosomal functions

Author

Massimo Aureli, Winfried Römer, Sandro Sonnino, Eeva-Liisa Eskelinen, Hans-Joachim Gabius, and Fulvio Reggiori

Subjects

Glycan, Cell, Endolysosomal system, Endocytosis, Biochemistry, CYTOPLASMIC TAIL, QUALITY-CONTROL, Polysaccharides, Lectins, medicine, Autophagy, Comprehensive Review Article, Molecular Biology, Glycoproteins, GALECTIN-3, chemistry.chemical_classification, Sugar code, RECEPTOR, biology, MEMBRANE-PROTEINS, Chemistry, Proteins, Cell Biology, GALACTOSIDE-BINDING-PROTEIN, Cell biology, carbohydrates (lipids), Cytosol, medicine.anatomical_structure, Membrane protein, Gene Expression Regulation, MOLECULAR-DYNAMICS, biology.protein, Glycolipids, Glycoprotein, Lysosomes, ATG9 TRAFFICKING, Glycoconjugates, Function (biology), O-GLCNACYLATION

Abstract

Glycans have been shown to function as versatile molecular signals in cells. This prompted us to look at their roles in endocytosis, endolysosomal system and autophagy. We start by introducing the cell biological aspects of these pathways, the concept of the sugar code, and provide an overview on the role of glycans in the targeting of lysosomal proteins and in lysosomal functions. Moreover, we review evidence on the regulation of endocytosis and autophagy by glycans. Finally, we discuss the emerging concept that cytosolic exposure of luminal glycans, and their detection by endogenous lectins, provides a mechanism for the surveillance of the integrity of the endolysosomal compartments, and serves their eventual repair or disposal.

Published

2021

20. Functional Characterization of the γ-Aminobutyric Acid Transporter from Mycobacterium smegmatis MC 2 155 Reveals Sodium-Driven GABA Transport

Author

Ana Pavić, Vincent L. G. Postis, Agnese Serafini, Mark Bartlam, Martin J. McPhillie, Alexandra O. M. Holmes, Yingying Wang, Luiz Pedro S. de Carvalho, Acely Garza-Garcia, Adrian Goldman, Yurui Ji, Biochemistry and Biotechnology, and Molecular and Integrative Biosciences Research Programme

Subjects

EXPRESSION, PERMEASE, mycobacteria, METABOLISM, TUBERCULOSIS, Microbiology, Mycobacterium tuberculosis, Gene product, GABA, MULTIPLE SEQUENCE ALIGNMENT, APC SUPERFAMILY, 03 medical and health sciences, membrane biology, GABA transporter, Molecular Biology, 030304 developmental biology, 0303 health sciences, IDENTIFICATION, biology, MEMBRANE-PROTEINS, 030306 microbiology, Permease, Mycobacterium smegmatis, Transporter, biology.organism_classification, GENE, 3. Good health, Transport protein, NITROGEN, Biochemistry, transporter, biology.protein, 1182 Biochemistry, cell and molecular biology, Target protein

Abstract

Characterizing the mycobacterial transporters involved in the uptake and/or catabolism of host-derived nutrients required by mycobacteria may identify novel drug targets against tuberculosis. Here, we identify and characterize a member of the amino acid-polyamine-organocation superfamily, a potential gamma-aminobutyric acid (GABA) transport protein, GabP, from Mycobacterium smegmatis. The protein was expressed to a level allowing its purification to homogeneity, and size exclusion chromatography coupled with multiangle laser light scattering (SEC-MALLS) analysis of the purified protein showed that it was dimeric. We showed that GabP transported gamma-aminobutyric acid both in vitro and when overexpressed in E. coli. Additionally, transport was greatly reduced in the presence of beta-alanine, suggesting it could be either a substrate or inhibitor of GabP. Using GabP reconstituted into proteoliposomes, we demonstrated that gamma-aminobutyric acid uptake is driven by the sodium gradient and is stimulated by membrane potential. Molecular docking showed that gamma-aminobutyric acid binds MsGabP, another Mycobacterium smegmatis putative GabP, and the Mycobacterium tuberculosis homologue in the same manner. This study represents the first expression, purification, and characterization of an active gamma-aminobutyric acid transport protein from mycobacteria. IMPORTANCE The spread of multidrug-resistant tuberculosis increases its global health impact in humans. As there is transmission both to and from animals, the spread of the disease also increases its effects in a broad range of animal species. Identifying new mycobacterial transporters will enhance our understanding of mycobacterial physiology and, furthermore, provides new drug targets. Our target protein is the gene product of msmeg_6196, annotated as GABA permease, from Mycobacterium smegmatis strain MC2 155. Our current study demonstrates it is a sodium-dependent GABA transporter that may also transport beta-alanine. As GABA may well be an essential nutrient for mycobacterial metabolism inside the host, this could be an attractive target for the development of new drugs against tuberculosis.

Published

2021

21. Lipid-bound ApoE3 self-assemble into elliptical disc-shaped particles

Author

Andreas Haahr Larsen, Søren Roi Midtgaard, Nicolai Tidemand Johansen, Lise Arleth, and Michael Gajhede

Subjects

0301 basic medicine, Morphology (linguistics), Lipid Bilayers, Apolipoprotein E3, Biophysics, Apolipoprotein E, ApoE, High density lipoprotein, HDL, Biochemistry, NANODISCS, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Small-angle X-ray scattering, SAXS, ddc:570, Amphiphile, Humans, Lipid bilayer, Lipoprotein, POPC, Nanodisc, Scattering, MEMBRANE-PROTEINS, CHOLESTEROL, Cell Biology, Negative stain, Electron microscopy, EM, X-RAY-SCATTERING, HUMAN APOLIPOPROTEIN E3, A-I, MODEL, 030104 developmental biology, chemistry, NEUTRON-SCATTERING, Phosphatidylcholines, Particle, lipids (amino acids, peptides, and proteins), NEGATIVE-STAINING PROTOCOL, Dimyristoylphosphatidylcholine, HIGH-DENSITY-LIPOPROTEIN, 030217 neurology & neurosurgery

Abstract

Biochimica et biophysica acta / Biomembranes 1863(1), 183495 (2021). doi:10.1016/j.bbamem.2020.183495, Apolipoproteins are vital to lipid metabolism and cholesterol transport in the human body. Here we present a structural study of the lipid-bound particles formed by ApoE3 in a full-length and a truncated version. The particles are formed with, respectively, POPC and DMPC and investigated by small-angle X-ray scattering and negative stain electron microscopy. We find that lipid-bound ApoE3 particles are elliptical, disc-shaped particles composed of a central lipid bilayer encircled by two amphipathic ApoE3 proteins. We went on to investigate a truncated form of ApoE3 containing only residue 80 to 255 (ApoE3$^{80���255}$), which is the central helical repeat segment of ApoE3. The lipid-bound ApoE3$^{80���255}$ particles are found to have the same morphology as the particles with full-length ApoE3. However, they are larger, and form more heterogeneous discoidal structures with four proteins per particle. This behavior is in contrast to ApoA1 where the highly similar helical repeat domain determines the size and stoichiometry of the formed particles both in the case of full-length and truncated ApoA1. Our data hence points towards different mechanisms for lipid bilayer structural modulation by ApoA1 and ApoE3 due to different roles of the non-repeat segments., Published by Elsevier, Amsterdam

Published

2021

22. Small-wedge synchrotron and serial XFEL datasets for Cysteinyl leukotriene GPCRs

Author

Polina Khorn, Kirill Kovalev, Anastasiia Gusach, Vitaly Polovinkin, Alexey Mishin, Vadim Cherezov, Valentin Borshchevskiy, Sergey Bukhdruker, Elizaveta Lyapina, Egor Marin, Aleksandra Luginina, Valentin Gordeliy, A. V. Rogachev, Moscow Institute of Physics and Technology [Moscow] (MIPT), MRC Laboratory of Molecular Biology [Cambridge, UK] (LMB), University of Cambridge [UK] (CAM)-Medical Research Council, Institut de biologie structurale (IBS - UMR 5075), Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche Interdisciplinaire de Grenoble (IRIG), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Grenoble Alpes (UGA), Institute of Biological Information Processing [Jülich] (IBI-7), and European Synchroton Radiation Facility [Grenoble] (ESRF)

Subjects

Statistics and Probability, Leukotrienes, Data Descriptor, Materials science, [SDV]Life Sciences [q-bio], MODELS, Synchrotron radiation, Library and Information Sciences, DATA-COLLECTION, Wedge (geometry), Data publication and archiving, Education, law.invention, Receptors, G-Protein-Coupled, 03 medical and health sciences, 0302 clinical medicine, Optics, X-Ray Diffraction, law, Humans, Cysteine, lcsh:Science, Author Correction, 030304 developmental biology, 0303 health sciences, business.industry, MEMBRANE-PROTEINS, Nanocrystallography, Free-electron laser, Synchrotron, Computer Science Applications, CRYSTALS, Cysteinyl leukotrienes, 030220 oncology & carcinogenesis, lcsh:Q, ddc:500, Statistics, Probability and Uncertainty, business, Crystallization, Synchrotrons, Information Systems

Abstract

Structural studies of challenging targets such as G protein-coupled receptors (GPCRs) have accelerated during the last several years due to the development of new approaches, including small-wedge and serial crystallography. Here, we describe the deposition of seven datasets consisting of X-ray diffraction images acquired from lipidic cubic phase (LCP) grown microcrystals of two human GPCRs, Cysteinyl leukotriene receptors 1 and 2 (CysLT1R and CysLT2R), in complex with various antagonists. Five datasets were collected using small-wedge synchrotron crystallography (SWSX) at the European Synchrotron Radiation Facility with multiple crystals under cryo-conditions. Two datasets were collected using X-ray free electron laser (XFEL) serial femtosecond crystallography (SFX) at the Linac Coherent Light Source, with microcrystals delivered at room temperature into the beam within LCP matrix by a viscous media microextrusion injector. All seven datasets have been deposited in the open-access databases Zenodo and CXIDB. Here, we describe sample preparation and annotate crystallization conditions for each partial and full datasets. We also document full processing pipelines and provide wrapper scripts for SWSX and SFX data processing., Measurement(s) X-ray diffraction data • protein complex • protein structure data • protein crystallization Technology Type(s) small-wedge synchrotron crystallography • x-ray crystallography assay • X-ray free electron laser serial femtosecond crystallography Factor Type(s) type of G-protein-coupled receptor • type of antagonist Machine-accessible metadata file describing the reported data: 10.6084/m9.figshare.13128758

Published

2020

23. Complexity of seemingly simple lipid nanodiscs

Author

Wojciech Galan, Piotr Stepien, Agnieszka Polit, Chetan Poojari, Anna Wisnieska-Becker, Tomasz Róg, Bozena Augustyn, Ilpo Vattulainen, Department of Physics, Tampere University, Physics, and Research group: Biological Physics and Soft Matter

Subjects

0301 basic medicine, Phase transition, BILAYERS, PHASE, Biophysics, membrane proteins, TRANSITIONS, Molecular Dynamics Simulation, 01 natural sciences, Biochemistry, 114 Physical sciences, 03 medical and health sciences, Molecular dynamics, Phase (matter), 0103 physical sciences, Membrane proteins, Lipid bilayer, Nanodisc, 010304 chemical physics, Chemistry, Molecular dynamics simulations, MEMBRANE-PROTEINS, CHOLESTEROL, ALL-ATOM, Lipids ordering, Cell Biology, molecular dynamics simulations, STATE, Nanostructures, PHOSPHOLIPIDS, CRYSTALS, 030104 developmental biology, Membrane, electron paramagnetic resonance, Membrane protein, MOLECULAR-DYNAMICS, Phosphatidylcholines, 1182 Biochemistry, cell and molecular biology, lipids (amino acids, peptides, and proteins), lipids ordering, Electron paramagnetic resonance, Dimyristoylphosphatidylcholine, Macromolecule

Abstract

Lipid nanodiscs are macromolecular assemblies, where a scaffold protein is wrapped around a nanosized disc of a lipid bilayer, thus protecting the hydrocarbon chains at the disc edges from unfavorable interactions with water. These nanostructures have numerous applications in, e.g., nanotechnology and pharmaceutics, and in investigations of membrane proteins. Here, we present results based on atomistic molecular dynamics simulations combined with electron paramagnetic spectroscopy measurements on the structure and dynamics of lipids in single-component nanodiscs. Our data highlight the existence of three distinctly different lipid fractions: central lipids residing in the center of a nanodisc, boundary lipids in direct contact with a scaffold protein, and intermediate lipids between these two regions. The central lipids are highly ordered and characterized by slow diffusion. In this part of the nanodisc, the membrane is the thickest and characterized by a gel-like or liquid-ordered phase, having features common to cholesterol-rich membranes. The boundary lipids in direct contact with the scaffold protein turned out to be less ordered and characterized by faster diffusion, and they remained in the liquid-disordered phase even at temperatures that were somewhat below the main phase transition temperature (Tm). The enthalpies associated with the central-boundary and central-intermediate transitions were similar to those observed for lipids going through the main phase transition. Overall, the study reveals lipid nanodiscs to be characterized by a complex internal structure, which is expected to influence membrane proteins placed in nanodiscs. publishedVersion

Published

2020

24. Use of solid-state NMR spectroscopy for investigating polysaccharide-based hydrogels

Author

Mustapha El Hariri El Nokab and Patrick C.A. van der Wel

Subjects

STRUCTURAL-CHARACTERIZATION, Magnetic Resonance Spectroscopy, Materials science, Polymers and Plastics, Alginates, QUANTITATIVE CROSS-POLARIZATION, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Water-biopolymer interactions, BETA-CYCLODEXTRIN, Materials Chemistry, Magic angle spinning, Molecule, SUPRAMOLECULAR STRUCTURE, Solid-state NMR spectroscopy, NUCLEAR-MAGNETIC-RESONANCE, DRUG-DELIVERY, Spectroscopy, C-13 NMR, C-13 CP/MAS NMR, Chitosan, NETWORK FORMATION, MEMBRANE-PROTEINS, Cross polarization, Organic Chemistry, Alginate, Hydrogels, Nuclear magnetic resonance spectroscopy, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Supramolecular hydrogels, Solid-state nuclear magnetic resonance, Self-healing hydrogels, 0210 nano-technology, CHITOSAN HYDROGELS

Abstract

Hydrogels find application in many areas of technology and research due to their ability to combine responsiveness and robustness. A detailed understanding of their molecular structure and dynamics (which ultimately underpin their functional properties) is needed for their design to be optimized and these hydrogels to be exploited effectively. In this review, we shed light on the unique capabilities of solid-state NMR spectroscopy to reveal this information in molecular detail. We review recent literature on the advancements in solid-state NMR techniques in resolving the structure, degree of grafting, molecular organization, water-biopolymer interactions and internal dynamical behavior of hydrogels. Among various solid-state NMR techniques, 13C cross polarization (CP) magic angle spinning (MAS) NMR is examined for its ability to probe the hydrogel and its trapped solvent. Although widely applicable to many types of polymeric and supramolecular hydrogels, the current review focuses on polysaccharide-based hydrogels.

Published

2020

25. ESCRT machinery mediates selective microautophagy of endoplasmic reticulum in yeast

Author

Julia Schessner, Michael Knop, Takuma Tsuji, Dimitrios Papagiannidis, Toyoshi Fujimoto, Katharina Schaeff, Peter W. Bircham, Jasmin A. Schäfer, Oliver Pajonk, Giulia Ruffini, Sebastian Schuck, and Charlotta Funaya

Subjects

ESCRT machinery, yeast, Endoplasmic Reticulum, SACCHAROMYCES-CEREVISIAE, 0302 clinical medicine, Homeostasis, Membrane & Intracellular Transport, 0303 health sciences, biology, MEMBRANE-PROTEINS, General Neuroscience, PROLIFERATION, Nuclear Proteins, Articles, Endoplasmic Reticulum Stress, Cell biology, endoplasmic reticulum, Phosphatase complex, AUTOPHAGY, TURNOVER, Autophagy & Cell Death, Life Sciences & Biomedicine, Biochemistry & Molecular Biology, microautophagy, Saccharomyces cerevisiae Proteins, Saccharomyces cerevisiae, BIOGENESIS, General Biochemistry, Genetics and Molecular Biology, Article, ER-PHAGY, 03 medical and health sciences, TOMOGRAPHY, Organelle, Microautophagy, Molecular Biology, 030304 developmental biology, Science & Technology, General Immunology and Microbiology, RECEPTOR, Endosomal Sorting Complexes Required for Transport, Endoplasmic reticulum, Autophagy, Membrane Proteins, Cell Biology, Intracellular Membranes, biology.organism_classification, Membrane protein, 030217 neurology & neurosurgery, Biogenesis, SYSTEM

Abstract

ER‐phagy, the selective autophagy of endoplasmic reticulum (ER), safeguards organelle homeostasis by eliminating misfolded proteins and regulating ER size. ER‐phagy can occur by macroautophagic and microautophagic mechanisms. While dedicated machinery for macro‐ER‐phagy has been discovered, the molecules and mechanisms mediating micro‐ER‐phagy remain unknown. Here, we first show that micro‐ER‐phagy in yeast involves the conversion of stacked cisternal ER into multilamellar ER whorls during microautophagic uptake into lysosomes. Second, we identify the conserved Nem1‐Spo7 phosphatase complex and the ESCRT machinery as key components for micro‐ER‐phagy. Third, we demonstrate that macro‐ and micro‐ER‐phagy are parallel pathways with distinct molecular requirements. Finally, we provide evidence that the ESCRT machinery directly functions in scission of the lysosomal membrane to complete the microautophagic uptake of ER. These findings establish a framework for a mechanistic understanding of micro‐ER‐phagy and, thus, a comprehensive appreciation of the role of autophagy in ER homeostasis., Micro‐ER‐phagy requires the Nem1‐Spo7 phosphatase complex and ESCRT proteins for membrane scission during uptake of multilamellar ER whorls into the lysosome.

Published

2020

26. Genome sequence of the chemolithoautotrophic nitrite-oxidizing bacterium Nitrobacter winogradskyi Nb-255

Author

Hickey, W [University of Wisconsin, Madison]

Published

2006

27. Characterization of putative membrane protein genes of the ‘Candidatus Phytoplasma asteris’, chrysanthemum yellows isolate.

Author

Galetto, Luciana, Fletcher, Jacqueline, Bosco, Domenico, Turina, Massimo, Wayadande, Astri, and Marzachì, Cristina

Subjects

*PHYTOPLASMAS, *MEMBRANE proteins, *GENETIC regulation, *ASTERS, *GENETIC vectors, *CHRYSANTHEMUMS, *EPITOPES, *SCIENTIFIC method, *MICROBIOLOGY education, *PHYSIOLOGY

Abstract

To characterize potentially important surface-exposed proteins of the phytoplasma causing chrysanthemum yellows (CY), new primers were designed based on the conserved regions of 3 membrane protein genes of the completely sequenced onion yellows and aster yellows witches’ broom phytoplasmas and were used to amplify CY DNA. The CY genes secY, amp, and artI, encoding the protein translocase subunit SecY, the antigenic membrane protein Amp and the arginine transporter ArtI, respectively, were cloned and completely sequenced. Alignment of CY-specific secY sequences with the corresponding genes of other phytoplasmas confirmed the 16S rDNA-based classification, while amp sequences were highly variable within the ‘Candidatus Phytoplasma asteris’. Five CY partial sequences were cloned into the pRSetC expression vector, and 3 of the encoded protein fragments (Amp 64/651, Amp 64/224, ArtI 131/512) were expressed as fusion antigens for the production of CY-specific polyclonal antibodies (A416 against Amp 64/224; A407 against ArtI 131/512). A416 recognized, in Western blots, the full-length Amp from CY-infected plants (periwinkle, daisy) and insect vectors (Euscelidius variegatus, Macrosteles quadripunctulatus). A416 also reacted to European aster yellows, to primula yellows phytoplasmas, to northern Italian strains of ‘Ca. Phytoplasma asteris’ from lettuce and gladiolus, but it did not react to American aster yellows phytoplasma. [ABSTRACT FROM AUTHOR]

Published

2008

28. PnuT uses a facilitated diffusion mechanism for thiamine uptake

Author

Rajkumar Singh, Alisa A. Garaeva, Dirk Jan Slotboom, Michael Jaehme, Ria H. Duurkens, and Enzymology

Subjects

0301 basic medicine, Shewanella, Passive transport, Physiology, 030106 microbiology, ECF TRANSPORTER, Diffusion, 03 medical and health sciences, chemistry.chemical_compound, ABC TRANSPORTERS, Bacterial Proteins, BINDING, CRYSTAL-STRUCTURE, BIOSYNTHESIS, Thiamine, Electrochemical gradient, Research Articles, Binding Sites, Facilitated diffusion, IDENTIFICATION, Thiamine transport, MEMBRANE-PROTEINS, COUPLING FACTOR TRANSPORTER, Membrane Transport Proteins, food and beverages, Thiamine monophosphate, PROKARYOTES, 030104 developmental biology, chemistry, BACTERIA, Biophysics, Pyrithiamine, human activities, Thiamine pyrophosphate, Protein Binding, Research Article

Abstract

The bacterial pyridine nucleotide uptake family of transporters mediates the uptake of B-type vitamins, but their transport mechanism is unknown. Jaehme et al. show that the PnuT thiamine transporter utilizes a facilitated diffusion mechanism and supports metabolic trapping of phosphorylated thiamine., Membrane transporters of the bacterial pyridine nucleotide uptake (Pnu) family mediate the uptake of various B-type vitamins. For example, the PnuT transporters have specificity for vitamin B1 (thiamine). It has been hypothesized that Pnu transporters are facilitators that allow passive transport of the vitamin substrate across the membrane. Metabolic trapping by phosphorylation would then lead to accumulation of the transported substrates in the cytoplasm. However, experimental evidence for such a transport mechanism is lacking. Here, to determine the mechanism of thiamine transport, we purify PnuTSw from Shewanella woodyi and reconstitute it in liposomes to determine substrate binding and transport properties. We show that the electrochemical gradient of thiamine solely determines the direction of transport, consistent with a facilitated diffusion mechanism. Further, PnuTSw can bind and transport thiamine as well as the thiamine analogues pyrithiamine and oxythiamine, but does not recognize the phosphorylated derivatives thiamine monophosphate and thiamine pyrophosphate as substrates, consistent with a metabolic trapping mechanism. Guided by the crystal structure of the homologous nicotinamide riboside transporter PnuC, we perform mutagenesis experiments, which reveal residues involved in substrate binding and gating. The facilitated diffusion mechanism of transport used by PnuTSw contrasts sharply with the active transport mechanisms used by other bacterial thiamine transporters.

Published

2017

29. Fluorescence study of the effect of the oxidized phospholipids on amyloid fibril formation by the apolipoprotein A-I N-terminal fragment

Author

Valeriya Trusova, Kateryna Vus, Paavo K.J. Kinnunen, Hiroyuki Saito, Mykhailo Girych, Galyna Gorbenko, Chiharu Mizuguchi, and Department of Physics

Subjects

0301 basic medicine, Apolipoprotein B, Amyloid, 116 Chemical sciences, General Physics and Astronomy, Protein aggregation, 114 Physical sciences, Micelle, PHOSPHATIDYLCHOLINES, BIOPHYSICS, 03 medical and health sciences, chemistry.chemical_compound, ACYL-CHAIN REVERSAL, OXIDATIVE STRESS, Physical and Theoretical Chemistry, ALZHEIMERS, Lipid bilayer, ta114, 030102 biochemistry & molecular biology, biology, MEMBRANE-PROTEINS, Chemistry, Vesicle, THIOFLAVINE-T, 030104 developmental biology, Membrane protein, Biochemistry, DISEASES, HIGH-DENSITY-LIPOPROTEINS, biology.protein, Thioflavin, PROTEIN AGGREGATION

Abstract

The effects of the oxidized phospholipids (oxPLs) on amyloid fibril formation by the apolipoprotein A-I variant 1-83/G26R have been investigated using Thioflavin T fluorescence assay. All types of the PoxnoPC assemblies (dispersions, micelles and lipid bilayer vesicles) induced retardation of amyloid nucleation and elongation and the enhancement of the 1-83/G26R fibrillization, although PazePC micelles completely prevented protein aggregation at low protein-to-lipid molar ratios. The ability of PazePC to inhibit 1-83/G26R aggregation was explained by the protein-lipid electrostatic interactions, which either stabilize the a-helical structure of the membrane-associated 1-83/G26R or facilitate the protein solubilization by the detergent micelles. (C) 2017 Elsevier B.V. All rights reserved.

Published

2017

30. Identification of novel biomarkers for treatment monitoring in canine leishmaniosis by high-resolution quantitative proteomic analysis

Author

Meriç Kocatürk, Richard Burchmore, José J. Cerón, Zeki Yilmaz, Damián Escribano, Vladimir Mrljak, Luis Pardo-Marín, Anita Horvatić, Silvia Martínez-Subiela, Uludağ Üniversitesi/Veteriner Fakültesi/İç Hastalıkları Anabilim Dalı., Kocatürk, Meriç, Yılmaz, Zeki, and V-5578-2017

Subjects

Veterinary sciences, Antiprotozoal agents, Male, Proteomics, Uunconventional myosin VI isoform X1, Pathology, Alkylation, Vitamin D-binding protein, High resolution, Inter alpha trypsin inhibitor heavy chain H1 isoform X1, Procedures, 0403 veterinary science, Plasma, Acute-phase proteins, Fibronectin isoform X1, Protein analysis, Leishmaniosis, Quantitative analysis, Leishmaniasis, Transferrin, Uunclassified drug, Biomarkers, Dog, Gel free Proteomics, Leishmaniosis, Treatment, Serum albumin precursor, Blood proteins, Gene expression profiling, Alpha-trypsin inhibitor, Beta 2 glycoprotein 1 precursor, Blood, Treatment monitoring, medicine.medical_specialty, Immunology, Organometallic compounds, Article, 03 medical and health sciences, Inter alpha trypsin inhibitor heavy chain H2, Kinin system, Dog disease, Enzyme metabolism, Complex, Upregulation, Membrane-proteins, Animal experiment, Liquid chromatography-mass spectrometry, Fibronectin, General Veterinary, Animal, Spectrin, Fold change, 030104 developmental biology, Potential biomarkers, Ferritins, Meglumine antimoniate, Protein expression, Parasitology, Comparative study, Trypsin Digestion, Biomarkers, 0301 basic medicine, Retinol binding protein 4, Blood sampling, Mass-spectrometry, Serum albumin, Beta2 glycoprotein 1, Tandem mass tag, Vitamin D binding protein, Spectrin beta chain non erythrocytic 1 isoform X1, Kininogen 1 isoform X1, Kininogen 1 isoform X2, Dog, Antiprotozoal agent, Disease, Trypsin, Spectrin beta chain erythrocytic, Dog diseases, Serum globulin, Serum albumin isoform X1, 04 agricultural and veterinary sciences, Serotransferrin, Drug monitoring, Veterinary, Biochemistry, Mmyosin VI, Female, 040301 veterinary sciences, Allopurinol, Acute phase protein, Down regulation, Biology, Dogs, Meglumine, medicine, Animals, Protein folding, Inflammation, Ferritin, Promastigotes, Plasminogen, Serum globulins, Nonhuman, Gel free proteomics, Organometallic compound, Treatment, Biological marker, Metabolism, Inter alpha trypsin inhibitor heavy chain H4 isoform X1, Inter alpha trypsin inhibitor, Leishmania Infantum, Psychodidae, Plasminogen precursor, Apolipoprotein A1, Gene ontology, Unindexed drug

Abstract

The objective of this study was to use the Tandem Mass Tag (TMT) isobaric label-based proteomic approach, in order to identify new potential biomarkers for the treatment monitoring of canine leishmaniosis that could not be identified by the use of gel-based techniques. For this purpose serum samples were obtained from 5 clinically diseased dogs before and one month after the treatment of canine leishmaniosis. The non-depleted serum samples were subjected to reduction, alkylation and trypsin digestion, and the resulting peptides were labeled using 6-plex TMT reagents. To obtain information about protein identities and relative quantification, liquid chromatography-MS analysis of multiplexed TMT-labeled peptides was employed. This gel-free, label-based quantitative proteomic approach enabled identification of 117 canine proteins. Among these, 23 showed significant difference (p < 0.05) in expression (two downregulated and 21 upregulated ranging from 1.25 to 2.5 fold change). Comparison of gel-free TMT-based quantification and a gel-based approach previously applied to the same samples resulted in the identification of some common markers (Apo-A1, vitamin D binding protein and RBP4). However, 20 additional differentially represented proteins were highlighted by the gel-free approach, 13 of which have not been previously reported in canine leishmaniosis. In conclusion, the TMT-based proteomic approach allowed identification of new serum proteins that significantly change in concentration after canine leishmaniosis treatment. These proteins are involved in various physiopathological processes such as inflammatory, coagulation or defense mechanisms, and could potentially be suitable biomarkers for treatment monitoring of this parasitic disease. Fundacion Seneca - 19894/GERM/15 ERA Chair initiative (VetMedZg) - 621394 Robles Chillida foundation European Commission European Commission Joint Research Centre

Published

2017

31. Mouse Stbd1 is N-myristoylated and affects ER–mitochondria association and mitochondrial morphology

Author

Demetriadou, Anthi, Morales-Sanfrutos, Julia, Nearchou, Marianna, Baba, Otto, Kyriacou, Kyriacos, Tate, Edward W., Drousiotou, Anthi, Petrou, Petros P., and Cancer Research UK

Subjects

ENDOPLASMIC-RETICULUM, Muscle Proteins, Myristic Acid, Mitochondria-associated membranes, Mice, DOMAIN, Stbd1, Animals, Humans, Gene Silencing, CYTOCHROME B(5) REDUCTASE, Organized smooth endoplasmic reticulum, Science & Technology, MEMBRANE-PROTEINS, Membrane Proteins, Intracellular Membranes, Cell Biology, 11 Medical And Health Sciences, 06 Biological Sciences, FISSION, MITOFUSIN 2, DYSFUNCTION, Mitochondria, HEK293 Cells, N-myristoylation, SKELETAL-MUSCLE, GLYCOGEN-METABOLISM, Life Sciences & Biomedicine, RESISTANCE, Glycogen, Endoplasmic reticulum, Research Article, HeLa Cells, Subcellular Fractions, Developmental Biology

Abstract

Starch binding domain-containing protein 1 (Stbd1) is a carbohydrate-binding protein that has been proposed to be a selective autophagy receptor for glycogen. Here, we show that mouse Stbd1 is a transmembrane endoplasmic reticulum (ER)-resident protein with the capacity to induce the formation of organized ER structures in HeLa cells. In addition to bulk ER, Stbd1 was found to localize to mitochondria-associated membranes (MAMs), which represent regions of close apposition between the ER and mitochondria. We demonstrate that N-myristoylation and binding of Stbd1 to glycogen act as major determinants of its subcellular targeting. Moreover, overexpression of non-myristoylated Stbd1 enhanced the association between ER and mitochondria, and further induced prominent mitochondrial fragmentation and clustering. Conversely, shRNA-mediated Stbd1 silencing resulted in an increase in the spacing between ER and mitochondria, and an altered morphology of the mitochondrial network, suggesting elevated fusion and interconnectivity of mitochondria. Our data unravel the molecular mechanism underlying Stbd1 subcellular targeting, support and expand its proposed function as a selective autophagy receptor for glycogen and uncover a new role for the protein in the physical association between ER and mitochondria., Highlighted Article: The glycogen-binding protein Stbd1 is N-myristoylated and targeted to ER–mitochondria contact sites. Stbd1 loss- or gain-of-function affects ER–mitochondria association and mitochondrial morphology.

Published

2017

32. A new leptin-mediated mechanism for stimulating fatty acid oxidation

Author

Swati S. Jain, Iman Momken, Jan F. C. Glatz, Joost J. F. P. Luiken, Miranda Nabben, Adrian Chabowski, Ellen Dirkx, Jay T. McFarlan, Arend Bonen, RS: CARIM - R2.07 - Gene regulation, Cardiologie, Moleculaire Genetica, RS: CARIM - R2.06 - Intermediate cardiac metabolism, Unité de biologie intégrative des adaptations à l'exercice (UBIAE), Université d'Évry-Val-d'Essonne (UEVE)-Institut National de la Santé et de la Recherche Médicale (INSERM), Medical University of Bialystok, Maastricht University [Maastricht], University of Guelph, and Medical University of Białystok (MUB)

Subjects

0301 basic medicine, CD36 Antigens, Leptin, [SDV]Life Sciences [q-bio], Glucose uptake, CD36, Oleic Acids, animal cell, AMP-Activated Protein Kinases, Biochemistry, Western blotting, Mice, Sarcolemma, CD36 antigen, Myocyte, rat, animal, genetics, Myocytes, Cardiac, Phosphorylation, Beta oxidation, sulfo-N-succinimidyl oleate, fatty acid oxidation, fatty acid transport, chemistry.chemical_classification, Mice, Knockout, cardiac muscle cell, biology, Chemistry, MEMBRANE-PROTEINS, Fatty Acids, ACTIVATED PROTEIN-KINASE, hydroxymethylglutaryl coenzyme A reductase kinase, Skeletal, succinimide derivative, Protein Transport, medicine.anatomical_structure, priority journal, enzyme active site, Muscle, SKELETAL-MUSCLE, LIPID-ACCUMULATION, Cardiac, Oxidation-Reduction, Vidarabine, medicine.medical_specialty, Knockout, Succinimides, CELLULAR REDISTRIBUTION, RAT CARDIAC MYOCYTES, OB/OB MICE, Article, Fatty acid-binding protein, Cell Line, 03 medical and health sciences, male, Internal medicine, medicine, Animals, controlled study, skeletal muscle, Antigens, Muscle, Skeletal, Molecular Biology, mouse, Myocytes, Cd36 protein, nonhuman, GLUCOSE-UPTAKE, Skeletal muscle, Fatty acid, AMPK, enzyme activation, Cell Biology, TRANSPORT, protein phosphorylation, Rats, 030104 developmental biology, Endocrinology, oleic acid, drug effects, PLASMA-MEMBRANE, biology.protein, fatty acid, knockout mouse, cell membrane, metabolism, oxidation reduction reaction, energy yield

Abstract

International audience; Leptin stimulates fatty acid oxidation in muscle and heart; but, the mechanism by which these tissues provide additional intracellular fatty acids for their oxidation remains unknown. We examined, in isolated muscle and cardiac myocytes, whether leptin, via AMP-activated protein kinase (AMPK) activation, stimulated fatty acid translocase (FAT/CD36)-mediated fatty acid uptake to enhance fatty acid oxidation. In both mouse skeletal muscle and rat cardiomyocytes, leptin increased fatty acid oxidation, an effect that was blocked when AMPK phosphorylation was inhibited by adenine 9-β-D-arabinofuranoside or Compound C. In wild-type mice, leptin induced the translocation of FAT/CD36 to the plasma membrane and increased fatty acid uptake into giant sarcolemmal vesicles and into cardiomyocytes. In muscles of FAT/CD36-KO mice, and in cardiomyocytes in which cell surface FAT/CD36 action was blocked by sulfo-N-succinimidyl oleate, the leptin-stimulated influx of fatty acids was inhibited; concomitantly, the normal leptin-stimulated increase in fatty acid oxidation was also prevented, despite the normal leptin-induced increase in AMPK phosphorylation. Conversely, in muscle of AMPK kinase-dead mice, leptin failed to induce the translocation of FAT/CD36, along with a failure to stimulate fatty acid uptake and oxidation. Similarly, when siRNA was used to reduce AMPK in HL-1 cardiomyocytes, leptin failed to induce the translocation of FAT/CD36. Our studies have revealed a novel mechanism of leptin-induced fatty acid oxidation in muscle tissue; namely, this process is dependent on the activation of AMPK to induce the translocation of FAT/CD36 to the plasma membrane, thereby stimulating fatty acid uptake. Without increasing this leptin-stimulated, FAT/CD36-dependent fatty acid uptake process, leptin-stimulated AMPK phosphorylation does not enhance fatty acid oxidation. © 2017 The Author(s); published by Portland Press Limited on behalf of the Biochemical Society.

Published

2017

33. Heteronuclear 2D-correlations in a uniformly [13C, 15N] labeled membrane-protein complex at ultra-high magnetic fields.

Author

Egorova-Zachernyuk, T.A., Hollander, J., Fraser, N., Gast, P., Hoff, A.J., Cogdell, R., de Groot, H.J.M., and Baldus, M.

Subjects

PROTEINS, CELL membranes, LOW temperatures, MAGNETIC fields, NUCLEAR magnetic resonance, MAGNETICS

Abstract

One- and two-dimensional solid-state NMR experiments on a uniformly labeled intrinsic membrane-protein complex at ultra-high magnetic fields are presented. Two-dimensional backbone and side-chain correlations for a [U-13C,15N] labeled version of the LH2 light-harvesting complex indicate significant resolution at low temperatures and under Magic Angle Spinning. Tentative assignments of some of the observed correlations are presented and attributed to the α-helical segments of the protein, mostly found in the membrane interior. [ABSTRACT FROM AUTHOR]

Published

2001

34. A synthetic metabolic network for physicochemical homeostasis

Author

Bauke F Gaastra, Wojciech M. Smigiel, Jacopo Frallicciardi, Shubham Singh, Bert Poolman, Tjeerd Pols, Hendrik R Sikkema, and Enzymology

Subjects

Ornithine, Hydrolases, Cell volume, General Physics and Astronomy, Metabolic network, 02 engineering and technology, PATHWAY, 0302 clinical medicine, Adenosine Triphosphate, lcsh:Science, 0303 health sciences, LACTIS, Multidisciplinary, synthetic cell, MEMBRANE-PROTEINS, Chemistry, ARTIFICIAL CELL, 021001 nanoscience & nanotechnology, Transmembrane protein, Enzymes, Lactococcus lactis, physicochemical homeostasis, Osmolyte, 0210 nano-technology, Metabolic Networks and Pathways, EXPRESSION, Science, Arginine, Article, out-of-equilibrium chemistry, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, metabolic network, Atp production, Ornithine Carbamoyltransferase, 030304 developmental biology, Metabolic energy, Artificial cell, DNA, General Chemistry, Phosphotransferases (Carboxyl Group Acceptor), TRANSPORT, ATP, RECONSTITUTION, Biophysics, Citrulline, lcsh:Q, Artificial Cells, Carrier Proteins, Energy Metabolism, 030217 neurology & neurosurgery, SYSTEM, Homeostasis

Abstract

One of the grand challenges in chemistry is the construction of functional out-of-equilibrium networks, which are typical of living cells. Building such a system from molecular components requires control over the formation and degradation of the interacting chemicals and homeostasis of the internal physical-chemical conditions. The provision and consumption of ATP lies at the heart of this challenge. Here we report the in vitro construction of a pathway in vesicles for sustained ATP production that is maintained away from equilibrium by control of energy dissipation. We maintain a constant level of ATP with varying load on the system. The pathway enables us to control the transmembrane fluxes of osmolytes and to demonstrate basic physicochemical homeostasis. Our work demonstrates metabolic energy conservation and cell volume regulatory mechanisms in a cell-like system at a level of complexity minimally needed for life., Functional out-of-equilibrium networks are typical of living cells. Here the authors report the construction of a sustained ATP production system in vesicles with controlled energy dissipation and physicochemical homeostasis.

Published

2019

35. Modulation of PTH1R signaling by an ECD binding antibody results in inhibition of β-arrestin 2 coupling

Author

Lisa Joedicke, David McMillan, Rebecca J. Burnley, Bernadette Byrne, Marta Westwood, Kaushik Sarkar, and Michael John Wright

Subjects

Models, Molecular, genetic structures, lcsh:Medicine, Parathyroid hormone, Biochemistry, Article, Protein Domains, GTP-Binding Proteins, INTACT, Humans, PEPTIDE, PARATHYROID-HORMONE RECEPTOR, Binding site, lcsh:Science, Receptor, G protein-coupled receptor, Receptor, Parathyroid Hormone, Type 1, FRAGMENT, Science & Technology, Multidisciplinary, MEMBRANE-PROTEINS, Parathyroid hormone receptor, Chemistry, lcsh:R, Antibodies, Monoclonal, C ACTIVATION DOMAIN, beta-Arrestin 2, Cell biology, Multidisciplinary Sciences, INTERMITTENT TREATMENT, AGONIST, Transmembrane domain, DIFFERENTIATION, Epitope mapping, Science & Technology - Other Topics, lcsh:Q, Signal transduction, Cell Surface Display Techniques, Extracellular Space, hormones, hormone substitutes, and hormone antagonists, Protein Binding, Signal Transduction, Biotechnology

Abstract

Parathyroid hormone receptor 1 (PTH1R) belongs to the secretin class of G protein coupled receptors (GPCRs) and natively binds parathyroid hormone (PTH) and parathyroid hormone related peptide (PTHrP). Ligand binding to PTH1R involves binding to the large extracellular domain (ECD) and the orthosteric pocket, inducing conformational changes in the transmembrane domain and receptor activation. PTH1R regulates bone metabolism, signaling mainly through Gs and Gq/11 G-proteins. Here, we used phage display to generate PTH1R ECD-specific antibodies with the aim of modulating receptor functionality. We identified ECD-scFvhFc, which exhibited high affinity binding to both the isolated ECD and to the full-length receptor in styrene-maleic acid (SMA) lipid particles. Epitope mapping using hydrogen-deuterium exchange mass spectrometry (HDX-MS) indicates that the α1 helix of the ECD is ECD-scFvhFc’s epitope which may partially overlap with the known PTH (1–34) binding site. However, PTH (1–34)-mediated Gs activation is Undisturbed by ECD-scFvhFc binding. In contrast, ECD-scFvhFc potently inhibits β-arrestin-2 recruitment after PTH (1–34)-driven receptor activation and thus represents the first monoclonal antibody to selectively inhibit distinct PTH1R signaling pathways. Given the complexity of PTH1R signaling and the emerging importance of biased GPCR activation in drug development, ECD-scFvhFc could be a valuable tool to study PTH1R signaling bias.

Published

2019

36. Peroxisome Maintenance Depends on De Novo Peroxisome Formation in Yeast Mutants Defective in Peroxisome Fission and Inheritance

Author

Ida J. van der Klei, Justyna P. Wróblewska, and Molecular Cell Biology

Subjects

0301 basic medicine, organelle, Mutant, Peroxisome inheritance, Receptors, Cytoplasmic and Nuclear, DNM1P, yeast, Pichia, Peroxins, Hansenula polymorpha, lcsh:Chemistry, peroxisome, Peroxisome fission, lcsh:QH301-705.5, Spectroscopy, Organelle Biogenesis, Chemistry, MEMBRANE-PROTEINS, General Medicine, Organelle fission, Peroxisome, Computer Science Applications, Cell biology, ABUNDANCE, Microorganisms, Genetically-Modified, HANSENULA-POLYMORPHA, BIOGENESIS, ENDOPLASMIC-RETICULUM, MYO2P, Article, Catalysis, VESICLES, Inorganic Chemistry, 03 medical and health sciences, Organelle, Peroxisomes, fission, inheritance, Physical and Theoretical Chemistry, Molecular Biology, 030102 biochemistry & molecular biology, Organic Chemistry, Wild type, Membrane Proteins, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, Mutation, CELLS, Biogenesis, SYSTEM, Pex11

Abstract

There is an ongoing debate on how peroxisomes form: by growth and fission of pre-existing peroxisomes or de novo from another membrane. It has been proposed that, in wild type yeast cells, peroxisome fission and careful segregation of the organelles over mother cells and buds is essential for organelle maintenance. Using live cell imaging we observed that cells of the yeast Hansenula polymorpha, lacking the peroxisome fission protein Pex11, still show peroxisome fission and inheritance. Also, in cells of mutants without the peroxisome inheritance protein Inp2 peroxisome segregation can still occur. In contrast, peroxisome fission and inheritance were not observed in cells of a pex11 inp2 double deletion strain. In buds of cells of this double mutant, new organelles likely appear de novo. Growth of pex11 inp2 cells on methanol, a growth substrate that requires functional peroxisomes, is retarded relative to the wild type control. Based on these observations we conclude that in H. polymorpha de novo peroxisome formation is a rescue mechanism, which is less efficient than organelle fission and inheritance to maintain functional peroxisomes.

Published

2019

37. Modulation of antibiotic sensitivity and biofilm formation in Pseudomonas aeruginosa by interspecies signal analogues

Author

Miguel A. Valvano, Ji-Liang Tang, Julie Murtagh, Timothy P. O'Sullivan, Shi-Qi An, Manoj K. Gupta, Rebecca J. Ingram, and Kate B. Twomey

Subjects

0301 basic medicine, Histidine Kinase, General Physics and Astronomy, 02 engineering and technology, medicine.disease_cause, Topology, Reconstitution, Mice, Phosphorylation, lcsh:Science, Sensor kinase, Pathogen, Multidisciplinary, Virulence, Chemistry, Bacterial, 021001 nanoscience & nanotechnology, 3. Good health, Anti-Bacterial Agents, Transmembrane domain, Biochemistry, Pseudomonas aeruginosa, Tobramycin, Fatty Acids, Unsaturated, Female, Pathogens, 0210 nano-technology, Interspecies signal analogues, Multidrug tolerance, Virulence Factors, Science, Mutagenesis (molecular biology technique), Microbial Sensitivity Tests, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Bacterial Proteins, Structure prediction, Drug Resistance, Bacterial, medicine, Animals, Humans, Pseudomonas Infections, Membrane-proteins, Polymyxins, Biofilm formation, Bacteria, Histidine kinase, Molecule, Biofilm, General Chemistry, Gene Expression Regulation, Bacterial, biochemical phenomena, metabolism, and nutrition, In vitro, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Genes, Mutagenesis, Biofilms, Antibiotic sensitivity, Liposomes, lcsh:Q

Abstract

Pseudomonas aeruginosa, a significant opportunistic pathogen, can participate in inter-species communication through signaling by cis-2-unsaturated fatty acids of the diffusible signal factor (DSF) family. Sensing these signals leads to altered biofilm formation and increased tolerance to various antibiotics, and requires the histidine kinase PA1396. Here, we show that the membrane-associated sensory input domain of PA1396 has five transmembrane helices, two of which are required for DSF sensing. DSF binding is associated with enhanced auto-phosphorylation of PA1396 incorporated into liposomes. Further, we examined the ability of synthetic DSF analogues to modulate or inhibit PA1396 activity. Several of these analogues block the ability of DSF to trigger auto-phosphorylation and gene expression, whereas others act as inverse agonists reducing biofilm formation and antibiotic tolerance, both in vitro and in murine infection models. These analogues may thus represent lead compounds to develop novel adjuvants improving the efficacy of existing antibiotics., Biofilm formation and antibiotic tolerance are regulated in Pseudomonas aeruginosa by the protein PA1396, which responds to diffusible signal factors (DSFs) produced by other bacteria. Here, An et al. synthesize DSF analogues that modulate PA1396 activity and thus biofilm formation and antibiotic tolerance.

Published

2019

38. Distribution and development of molecularly distinct perineuronal nets in visual thalamus

Author

Sabbagh, U, Monavarfeshani, A, Su, K, Zabet-Moghadam, M, Cole, J, Carnival, E, Su, J, Mirzaei, M, Gupta, V, Salekdeh, GH, Fox, MA, Sabbagh, U, Monavarfeshani, A, Su, K, Zabet-Moghadam, M, Cole, J, Carnival, E, Su, J, Mirzaei, M, Gupta, V, Salekdeh, GH, and Fox, MA

Published

2018

39. Use of solid-state NMR spectroscopy for investigating polysaccharide-based hydrogels

Subjects

STRUCTURAL-CHARACTERIZATION, Chitosan, NETWORK FORMATION, QUANTITATIVE CROSS-POLARIZATION, MEMBRANE-PROTEINS, Alginate, Water-biopolymer interactions, BETA-CYCLODEXTRIN, SUPRAMOLECULAR STRUCTURE, Solid-state NMR spectroscopy, NUCLEAR-MAGNETIC-RESONANCE, DRUG-DELIVERY, C-13 NMR, C-13 CP/MAS NMR, CHITOSAN HYDROGELS

Abstract

Hydrogels find application in many areas of technology and research due to their ability to combine responsiveness and robustness. A detailed understanding of their molecular structure and dynamics (which ultimately underpin their functional properties) is needed for their design to be optimized and these hydrogels to be exploited effectively. In this review, we shed light on the unique capabilities of solid-state NMR spectroscopy to reveal this information in molecular detail. We review recent literature on the advancements in solid-state NMR techniques in resolving the structure, degree of grafting, molecular organization, water-biopolymer interactions and internal dynamical behavior of hydrogels. Among various solid-state NMR techniques, 13C cross polarization (CP) magic angle spinning (MAS) NMR is examined for its ability to probe the hydrogel and its trapped solvent. Although widely applicable to many types of polymeric and supramolecular hydrogels, the current review focuses on polysaccharide-based hydrogels.

Published

2020

40. The carboxyl-terminal region of the spinach PsaD subunit contains information for its specific assembly into plant thylakoids.

Author

Cohen, Yuval, Nelson, Nathan, Chitnis, Parag, and Nechushtai, Rachel

Abstract

The assembly of the multi-subunit membrane-protein Photosystem I (PS I) complex involves incorporation of peripheral proteins into the complex. Here we studied assembly of the PsaD subunit of the cyanobacterial and plant PS I into the thylakoid membranes. We generated partial and chimeric psaD genes from which labeled proteins were synthesized in vitro. Assembly of these proteins into the cyanobacterial or plant thylakoids was assayed. The deletion of leader sequence and N-terminal extension of spinach prePsaD did not inhibit its assembly into spinach or cyanobacterial thylakoids. Addition of these sequences to the cyanobacterial PsaD did not enable it to assemble into plant thylakoids. Moreover, these additions significantly decreased the ability of the chimeric proteins to assemble into cyanobacterial thylakoids. In contrast, when the carboxyl-terminal half of cyanobacterial PsaD was replaced by the corresponding region of the spinach PsaD, the chimeric protein could assemble into both spinach and cyanobacterial thylakoids. Therefore, information in the carboxyl-terminal region of spinach PsaD is crucial for its assembly into plant thylakoids. [ABSTRACT FROM AUTHOR]

Published

1995

41. The hemagglutinin of Staphylococcus saprophyticus binds to a protein receptor on sheep erythrocytes.

Author

Meyer, Heinz-Georg W., Müthing, Johannes, and Gatermann, S. G.

Abstract

Staphylococcus saprophyticus, an important cause of urinary tract infections, produces two major surface proteins, the S. saprophyticus surface-associated protein (Ssp) and the hemagglutinin, which mediates fibronectin binding and also functions as the major adhesin of the organism. The hemagglutinating and fibronectin binding functions probably reside on different parts of the molecule. To identify a receptor on eukaryotic cells, binding and inhibition studies with acidic and neutral glycosphingolipids, carbohydrates, and proteins of sheep erythrocyte membranes were conducted. S. saprophyticus did not bind to any glycosphingolipid and no inhibition was observed when hemagglutination assays were done in the presence of carbohydrates or fibronectin. Neither treatment of erythrocytes with galactose oxidase or neuraminidase and galactose oxidase nor mild periodate oxidation of erythrocytes reduced hemagglutination. However, proteinase-treated erythrocytes were no longer agglutinated. Similarly, untreated erythrocyte membranes inhibited hemagglutination, whereas proteinase-treated membranes did not. In addition, only hemagglutinating strains bound to 60- and 21-kDa sheep erythrocyte membrane proteins on ligand blots, and these proteins inhibited hemagglutination. Our data indicate that, in contrast to many other hemagglutinins, the receptor on sheep erythrocytes for S. saprophyticus is a protein. [ABSTRACT FROM AUTHOR]

Published

1997

42. The 2018 correlative microscopy techniques roadmap

Subjects

atomic force microscopy, electron microscopy, MEMBRANE-PROTEINS, x-ray microscopy, ENDOGENOUS PROTEINS, fluorescence microscopy, SCANNING-ELECTRON-MICROSCOPY, SUPERRESOLUTION FLUORESCENCE, super-resolution microscopy, INTEGRATED LIGHT, magnetic resonance imaging, correlative microscopy, OPTICAL MICROSCOPY, LIVING CELLS, LOCALIZATION MICROSCOPY, HIGH-RESOLUTION, ATOMIC-FORCE MICROSCOPY

Abstract

Developments in microscopy have been instrumental to progress in the life sciences, and many new techniques have been introduced and led to new discoveries throughout the last century. A wide and diverse range of methodologies is now available, including electron microscopy, atomic force microscopy, magnetic resonance imaging, small-angle x-ray scattering and multiple super-resolution fluorescence techniques, and each of these methods provides valuable read-outs to meet the demands set by the samples under study. Yet, the investigation of cell development requires a multi-parametric approach to address both the structure and spatio-temporal organization of organelles, and also the transduction of chemical signals and forces involved in cell-cell interactions. Although the microscopy technologies for observing each of these characteristics are well developed, none of them can offer read-out of all characteristics simultaneously, which limits the information content of a measurement. For example, while electron microscopy is able to disclose the structural layout of cells and the macromolecular arrangement of proteins, it cannot directly follow dynamics in living cells. The latter can be achieved with fluorescence microscopy which, however, requires labelling and lacks spatial resolution. A remedy is to combine and correlate different readouts from the same specimen, which opens new avenues to understand structure-function relations in biomedical research. At the same time, such correlative approaches pose new challenges concerning sample preparation, instrument stability, region of interest retrieval, and data analysis. Because the field of correlative microscopy is relatively young, the capabilities of the various approaches have yet to be fully explored, and uncertainties remain when considering the best choice of strategy and workflow for the correlative experiment. With this in mind, the Journal of Physics D: Applied Physics presents a special roadmap on the correlative microscopy techniques, giving a comprehensive overview from various leading scientists in this field, via a collection of multiple short viewpoints.

Published

2018

43. A bacteria-derived tail anchor localizes to peroxisomes in yeast and mammalian cells

Author

Emel Akdoğan, Abdurrahman Keskin, Cory D. Dunn, Guleycan Lutfullahoglu-Bal, Ayse Bengisu Seferoglu, Institute of Biotechnology, Helsinki Institute of Life Science HiLIFE, Dunn, Cory David, Keskin, Abdurrahman, Akdoğan, Emel, Lütfüllahoğlu-Bal, Güleycan, Seferoğlu, Ayşe Bengisu, College of Sciences, and Department of Molecular Biology and Genetics

Subjects

0301 basic medicine, lcsh:Medicine, MITOCHONDRIAL, Mixed Function Oxygenases, SACCHAROMYCES-CEREVISIAE, 0302 clinical medicine, Saccharomyces-cerevisiae, Endoplasmic-reticulum, Membrane-proteins, Paulinella-chromatophora, Signal peptides, Mitochondrial, Er, Eukaryotes, Evolution, Insertion, lcsh:Science, Science and technology, 0303 health sciences, Multidisciplinary, MEMBRANE-PROTEINS, Escherichia coli Proteins, food and beverages, Peroxisome, Transport protein, Cell biology, Protein Transport, Horizontal gene transfer, Eukaryote, Signal peptide, Gene Transfer, Horizontal, Saccharomyces cerevisiae, ENDOPLASMIC-RETICULUM, INSERTION, Biology, EUKARYOTES, Article, 03 medical and health sciences, Organelle, Escherichia coli, Peroxisomes, Humans, Compartment (development), Amino Acid Sequence, 030304 developmental biology, HEK 293 cells, lcsh:R, biology.organism_classification, EVOLUTION, Yeast, PAULINELLA-CHROMATOPHORA, 030104 developmental biology, HEK293 Cells, ER, SIGNAL PEPTIDES, 1182 Biochemistry, cell and molecular biology, lcsh:Q, 030217 neurology & neurosurgery, Function (biology)

Abstract

Prokaryotes can provide new genetic information to eukaryotes by horizontal gene transfer (HGT), and such transfers are likely to have been particularly consequential in the era of eukaryogenesis. Since eukaryotes are highly compartmentalized, it is worthwhile to consider the mechanisms by which newly transferred proteins might reach diverse organellar destinations. Toward this goal, we have focused our attention upon the behavior of bacteria-derived tail anchors (TAs) expressed in the eukaryote Saccharomyces cerevisiae. In this study, we report that a predicted membrane-associated domain of the Escherichia coli YgiM protein is specifically trafficked to peroxisomes in budding yeast, can be found at a pre-peroxisomal compartment (PPC) upon disruption of peroxisomal biogenesis, and can functionally replace an endogenous, peroxisome-directed TA. Furthermore, the YgiM(TA) can localize to peroxisomes in mammalian cells. Since the YgiM(TA) plays no endogenous role in peroxisomal function or assembly, this domain is likely to serve as an excellent tool allowing further illumination of the mechanisms by which TAs can travel to peroxisomes. Moreover, our findings emphasize the ease with which bacteria-derived sequences might target to organelles in eukaryotic cells following HGT, and we discuss the importance of flexible recognition of organelle targeting information during and after eukaryogenesis., European Research Council; EMBO Installation Grant; Turkish Academy of Sciences Outstanding Young Scientist Award (Turkish Academy of Sciences (TÜBA)-GEBIP); Koç University

Published

2018

44. Insights into the Role of the Peroxisomal Ubiquitination Machinery in Pex13p Degradation in the Yeast Hansenula polymorpha

Author

Xin Chen, Srishti Devarajan, Chris Williams, Natasha Danda, Molecular Cell Biology, and Cell Biochemistry

Subjects

0301 basic medicine, Receptor recycling, Ubiquitin-Protein Ligases, BIOGENESIS, Protein degradation, Pichia, Fungal Proteins, Peroxins, 03 medical and health sciences, Ubiquitin, Structural Biology, Peroxisomes, MATRIX PROTEIN, DOCKING, SH3 DOMAIN, Molecular Biology, IMPORT RECEPTOR PEX5P, biology, Chemistry, MEMBRANE-PROTEINS, Ubiquitination, Membrane Proteins, Peroxisome, ARABIDOPSIS, SIGNAL, Ubiquitin ligase, Cell biology, 030104 developmental biology, Proteasome, Membrane protein, LIGASE SP1, Proteolysis, biology.protein, PROTEASOME SYSTEM, Biogenesis

Abstract

The import of matrix proteins into peroxisomes in yeast requires the action of the ubiquitin-conjugating enzyme Pex4p and a complex consisting of the ubiquitin E3 ligases Pex2p, Pex10p and Pex12p. Together, this peroxisomal ubiquitination machinery is thought to ubiquitinate the cycling receptor protein Pex5p and members of the Pex20p family of co-receptors, a modification that is required for receptor recycling. However, recent reports have demonstrated that this machinery plays a role in additional peroxisome-associated processes. Hence, our understanding of the function of these proteins in peroxisome biology is still incomplete. Here, we identify a role for the peroxisomal ubiquitination machinery in the degradation of the peroxisomal membrane protein Pex13p. Our data demonstrate that Pex13p levels build up in cells lacking members of this machinery and also establish that Pex13p undergoes rapid degradation in wild-type cells. Furthermore, we show that Pex13p is ubiquitinated in wild-type cells and also establish that Pex13p ubiquitination is reduced in cells lacking a functional peroxisomal E3 ligase complex. Finally, deletion of PEX2 causes Pex13p to build up at the peroxisomal membrane. Taken together, our data provide further evidence that the role of the peroxisomal ubiquitination machinery in peroxisome biology goes much deeper than receptor recycling alone.

Published

2018

45. Stable and Functional Rhomboid Proteases in Lipid Nanodiscs by Using Diisobutylene/Maleic Acid Copolymers

Author

Steven H. L. Verhelst and Marta Barniol-Xicota

Subjects

Models, Molecular, 0301 basic medicine, Proteases, Maleic acid, Polymers, Chemistry, Multidisciplinary, INTRAMEMBRANE, Alkenes, 01 natural sciences, Biochemistry, Catalysis, Small Molecule Libraries, ACTIVATION, 03 medical and health sciences, chemistry.chemical_compound, Colloid and Surface Chemistry, REVEALS, Copolymer, Humans, CRYSTAL-STRUCTURE, Particle Size, PROTEOLYSIS, chemistry.chemical_classification, Science & Technology, Molecular Structure, MEMBRANE-PROTEINS, 010405 organic chemistry, Chemistry, Rhomboid, Maleates, General Chemistry, Polymer, BILAYER NANODISCS, Lipids, Small molecule, FAMILY, 0104 chemical sciences, 030104 developmental biology, Membrane, Solubilization, DISCOVERY, Physical Sciences, Biophysics, Nanoparticles, Serine Proteases, INHIBITORS

Abstract

Rhomboid proteases form a paradigm for intramembrane proteolysis and have been implicated in several human diseases. However, their study is hampered by difficulties in solubilization and purification. We here report on the use of polymers composed of maleic acid and either diisobutylene or styrene for solubilization of rhomboid proteases in lipid nanodiscs, which proceeds with up to 48% efficiency. We show that the activity of rhomboids in lipid nanodiscs is closer to that in the native membrane than rhomboids in detergent. Moreover, a rhomboid that was proteolytically unstable in detergent turned out to be stable in lipid nanodiscs, underlining the benefit of using these polymer-stabilized nanodiscs. The systems are also compatible with the use of activity-based probes and can be used for small molecule inhibitor screening, allowing several downstream applications. ispartof: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY vol:140 issue:44 pages:14557-14561 ispartof: location:United States status: published

Published

2018

46. The 2018 correlative microscopy techniques roadmap

Author

Hans C. Gerritsen, P. J. de Pablo, Satya Prathyusha Bhamidimarri, Nalan Liv, Marco Fritzsche, Florian Rehfeldt, Michael W. Vogel, Richard Wagner, Maarten B. J. Roeffaers, Iwan A. T. Schaap, Christian Eggeling, Christian Franck, Kay Grünewald, Diana B. Peckys, Niklas Brending, Haifeng Yuan, Ulrich S. Schwarz, Elke Debroye, Jana Kusch, Nyoman D. Kurniawan, Giovanni Zifarelli, Jacob P. Hoogenboom, Huw Colin-York, Toshio Ando, Kris P. F. Janssen, Niels de Jonge, Mathias Winterhalter, Johan Hofkens, Lucy M. Collinson, Ben N G Giepmans, David C. Reutens, Viha Parekh, Paul Verkade, Rainer Kaufman, Tim Salditt, and Judith Klumpermann

Subjects

0301 basic medicine, Correlative, Acoustics and Ultrasonics, x-ray microscopy, Correlative microscopy, 02 engineering and technology, Transduction (psychology), ENDOGENOUS PROTEINS, fluorescence microscopy, Field (computer science), SCANNING-ELECTRON-MICROSCOPY, Physics, Applied, 03 medical and health sciences, SUPERRESOLUTION FLUORESCENCE, super-resolution microscopy, Microscopy, magnetic resonance imaging, OPTICAL MICROSCOPY, correlative microscopy, Topical Review, LIVING CELLS, ATOMIC-FORCE MICROSCOPY, Science & Technology, atomic force microscopy, electron microscopy, Atomic force microscopy, Super-resolution microscopy, MEMBRANE-PROTEINS, Physics, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Data science, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, 030104 developmental biology, Workflow, Physical Sciences, INTEGRATED LIGHT, 0210 nano-technology, LOCALIZATION MICROSCOPY, HIGH-RESOLUTION

Abstract

Developments in microscopy have been instrumental to progress in the life sciences, and many new techniques have been introduced and led to new discoveries throughout the last century. A wide and diverse range of methodologies is now available, including electron microscopy, atomic force microscopy, magnetic resonance imaging, small-angle x-ray scattering and multiple super-resolution fluorescence techniques, and each of these methods provides valuable read-outs to meet the demands set by the samples under study. Yet, the investigation of cell development requires a multi-parametric approach to address both the structure and spatio-temporal organization of organelles, and also the transduction of chemical signals and forces involved in cell-cell interactions. Although the microscopy technologies for observing each of these characteristics are well developed, none of them can offer read-out of all characteristics simultaneously, which limits the information content of a measurement. For example, while electron microscopy is able to disclose the structural layout of cells and the macromolecular arrangement of proteins, it cannot directly follow dynamics in living cells. The latter can be achieved with fluorescence microscopy which, however, requires labelling and lacks spatial resolution. A remedy is to combine and correlate different readouts from the same specimen, which opens new avenues to understand structure-function relations in biomedical research. At the same time, such correlative approaches pose new challenges concerning sample preparation, instrument stability, region of interest retrieval, and data analysis. Because the field of correlative microscopy is relatively young, the capabilities of the various approaches have yet to be fully explored, and uncertainties remain when considering the best choice of strategy and workflow for the correlative experiment. With this in mind, the Journal of Physics D: Applied Physics presents a special roadmap on the correlative microscopy techniques, giving a comprehensive overview from various leading scientists in this field, via a collection of multiple short viewpoints. ispartof: JOURNAL OF PHYSICS D-APPLIED PHYSICS vol:51 issue:44 ispartof: location:England status: published

Published

2018

47. Probing labeling-induced lysosome alterations in living cells by imaging-derived mean squared displacement analysis

Author

Francesco Cardarelli, Laura Marchetti, Rosy Amodeo, William Durso, Francesca D'Autilia, Durso, William, D'Autilia, Francesca, Amodeo, Rosy, Marchetti, Laura, and Cardarelli, Francesco

Subjects

0301 basic medicine, Recombinant Fusion Proteins, Biophysics, Nutrient sensing, Transfection, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, FUSION, Genes, Reporter, Lysosome, Organelle, medicine, Humans, MEMBRANE-PROTEINS, Molecular Biology, Fluorescent Dyes, Staining and Labeling, Chemistry, Tetraspanin 30, Electroporation, Optical Imaging, Lysosome-Associated Membrane Glycoproteins, Cell Biology, Lipids, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Spectrometry, Fluorescence, Cell culture, Lipofectamine, Lysosomes, 030217 neurology & neurosurgery, Function (biology), HeLa Cells, Plasmids

Abstract

Lysosomes are not merely degradative organelles but play a central role in nutrient sensing, metabolism and cell-growth regulation. Our ability to study their function in living cells strictly relies on the use of lysosome-specific fluorescent probes tailored to optical microscopy applications. Still, no report thus far quantitatively analyzed the effect of labeling strategies/procedures on lysosome properties in live cells. We tackle this issue by a recently developed spatiotemporal fluctuation spectroscopy strategy that extracts structural (size) and dynamic (diffusion) properties directly from imaging, with no a-priori knowledge of the system. We highlight hitherto neglected alterations of lysosome properties upon labeling. In particular, we demonstrate that Lipofectamine reagents, used to transiently express lysosome markers fused to fluorescent proteins (FPs) (e.g. LAMP1-FP or CD63-FP), irreversibly alter the organelle structural identity, inducing a ∼2-fold increase of lysosome average size. The organelle structural identity is preserved, instead, if electroporation or Effectene are used as transfection strategies, provided that the expression levels of the recombinant protein marker are kept low. This latter condition can be achieved also by generating cell lines stably expressing the desired FP-tagged marker. Reported results call into question the interpretation of a massive amount of data collected so far using fluorescent protein markers and suggest useful guidelines for future studies.

Published

2018

48. Mechanisms of mechanosensing - mechanosensitive channels, function and re-engineering

Subjects

MEMBRANE-PROTEINS, ESCHERICHIA-COLI, SENSITIVE ION-CHANNEL, WATER, COMPLEXES, MASS-SPECTROMETRY, HYDROPHOBIC NANOPORES, OLIGOMERIC STATE, OSMOTIC-STRESS, MSCL

Abstract

Sensing and responding to mechanical stimuli is an ancient behavior and ubiquitous to all forms of life. One of its players 'mechanosensitive ion channels' are involved in processes from osmosensing in bacteria to pain in humans. However, the mechanism of mechanosensing is yet to be elucidated. This review describes recent developments in the understanding of a bacterial mechanosensitive channel. Force from the lipid principle of mechanosensation, new methods to understand protein-lipid interactions, the role of water in the gating, the use of engineered mechanosensitive channels in the understanding of the gating mechanism and application of the accumulated knowledge in the field of drug delivery, drug design and sensor technologies are discussed.

Published

2015

49. Improving spectral resolution in biological solid-state NMR using phase-alternated rCW heteronuclear decoupling

Author

Morten Bjerring, Niels Chr. Nielsen, Asif Equbal, and Perunthiruthy K. Madhu

Subjects

SPECTROSCOPY, Spins, MEMBRANE-PROTEINS, Chemistry, ASSIGNMENT, Analytical chemistry, General Physics and Astronomy, Decoupling (cosmology), FREQUENCY, Homonuclear molecule, Spectral line, ANGLE-SPINNING NMR, AMYLOID FIBRILS, Solid-state nuclear magnetic resonance, Heteronuclear molecule, Chemical physics, ROTATING SOLIDS, SIMULATION, RF IRRADIATION, NUCLEAR-MAGNETIC-RESONANCE, Physical and Theoretical Chemistry, Spectral resolution, Magnetic dipole–dipole interaction

Abstract

The successful application of solid-state NMR spectroscopy for structural study of biological macromolecules requires high spectral resolution. In presence of abundant H 1 spins, the resolution of the prevailing C 13 or N 15 chemical shift encoding experiments critically depends on the availability of efficient and robust heteronuclear decoupling methods in addition to the use of high-field instrumentation and fast sample spinning. Robustness of the decoupling method towards alterations in amplitude/offset of radio frequency fields due to varying sample states is important to ensure recording of spectra with high resolution over long sampling periods for insensitive samples. Here, we present a phase-alternated refocused continuous-wave decoupling method offering better resolution, easier setup, and higher robustness than previous methods. Improved decoupling is in part ascribed to more efficient cancellation of the residual heteronuclear, H 1 – C 13 , dipolar coupling interactions which are induced by homonuclear, H 1 – H 1 , dipolar coupling interactions.

Published

2015

50. A new leptin-mediated mechanism for stimulating fatty acid oxidation: a pivotal role for sarcolemmal FAT/CD36

Author

Momken, Iman, Momken, Iman, Chabowski, Adrian, Dirkx, Ellen, Nabben, Miranda, Jain, Swati S., McFarlan, Jay T., Glatz, Jan F. C., Luiken, Joost J. F. P., Bonen, Arend, Momken, Iman, Momken, Iman, Chabowski, Adrian, Dirkx, Ellen, Nabben, Miranda, Jain, Swati S., McFarlan, Jay T., Glatz, Jan F. C., Luiken, Joost J. F. P., and Bonen, Arend

Abstract

Leptin stimulates fatty acid oxidation in muscle and heart; but, the mechanism by which these tissues provide additional intracellular fatty acids for their oxidation remains unknown. We examined, in isolated muscle and cardiac myocytes, whether leptin, via AMP-activated protein kinase (AMPK) activation, stimulated fatty acid translocase (FAT/CD36)- mediated fatty acid uptake to enhance fatty acid oxidation. In both mouse skeletal muscle and rat cardiomyocytes, leptin increased fatty acid oxidation, an effect that was blocked when AMPK phosphorylation was inhibited by adenine 9- beta-D-arabinofuranoside or Compound C. In wild-type mice, leptin induced the translocation of FAT/CD36 to the plasma membrane and increased fatty acid uptake into giant sarcolemmal vesicles and into cardiomyocytes. In muscles of FAT/CD36-KO mice, and in cardiomyocytes in which cell surface FAT/CD36 action was blocked by sulfo-N-succinimidyl oleate, the leptin-stimulated influx of fatty acids was inhibited; concomitantly, the normal leptin-stimulated increase in fatty acid oxidation was also prevented, despite the normal leptin-induced increase in AMPK phosphorylation. Conversely, in muscle of AMPK kinase-dead mice, leptin failed to induce the translocation of FAT/CD36, along with a failure to stimulate fatty acid uptake and oxidation. Similarly, when siRNA was used to reduce AMPK in HL-1 cardiomyocytes, leptin failed to induce the translocation of FAT/CD36. Our studies have revealed a novel mechanism of leptin-induced fatty acid oxidation in muscle tissue; namely, this process is dependent on the activation of AMPK to induce the translocation of FAT/CD36 to the plasma membrane, thereby stimulating fatty acid uptake. Without increasing this leptin-stimulated, FAT/CD36-dependent fatty acid uptake process, leptinstimulated AMPK phosphorylation does not enhance fatty acid oxidation.

Published

2017