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1. Multiscale and multimodal approaches to study autophagy in model plants

Author

UCL - SST/ISV - Institut des sciences de la vie, Marion, Jessica, Le Bars, Romain, Besse, Laetitia, Batoko, Henri, Satiat-Jeunemaitre, Béatrice, UCL - SST/ISV - Institut des sciences de la vie, Marion, Jessica, Le Bars, Romain, Besse, Laetitia, Batoko, Henri, and Satiat-Jeunemaitre, Béatrice

Published
2018

2. Increasing Diversity of Biological Membrane Fission Mechanisms.

Author

UCL - SST/ISV - Institut des sciences de la vie, Renard, Henri-François, Johannes, Ludger, Morsomme, Pierre, UCL - SST/ISV - Institut des sciences de la vie, Renard, Henri-François, Johannes, Ludger, and Morsomme, Pierre

Abstract

Membrane fission is essential to life. It is required for many fundamental cellular processes, as diverse as cyto- and karyokinesis, organelle division, membrane repair, and membrane trafficking and endocytosis. While membrane fission was originally seen as resulting from the action of mechanoenzymes such as dynamin, it is clear that the reality is more complex. In this review, we propose an updated overview of fission mechanisms, and try to extract essential requirements for each. We also present examples of cellular processes that involve these fission mechanisms. Finally, we list pending questions, whether they are specific to a peculiar fission mechanism or more general to the field.

Published
2018

3. Reducing insulin via conditional partial gene ablation in adults reverses diet-induced weight gain.

Author

UCL - SST/ISV - Institut des sciences de la vie, Page, Melissa, Skovso, S., UCL - SST/ISV - Institut des sciences de la vie, Page, Melissa, and Skovso, S.

Abstract

Excess circulating insulin is associated with obesity in humans and in animal models. However, the physiologic causality of hyperinsulinemia in adult obesity has rightfully been questioned because of the absence of clear evidence that weight loss can be induced by acutely reversing diet-induced hyperinsulinemia. Herein, we describe the consequences of inducible, partial insulin gene deletion in a mouse model in which animals have already been made obese by consuming a high-fat diet. A modest reduction in insulin production/secretion was sufficient to cause significant weight loss within 5 wk, with a specific effect on visceral adipose tissue. This result was associated with a reduction in the protein abundance of the lipodystrophy gene polymerase I and transcript release factor (Ptrf; Cavin) in gonadal adipose tissue. RNAseq analysis showed that reduced insulin and weight loss also associated with a signature of reduced innate immunity. This study demonstrates that changes in circulating insulin that are too fine to adversely affect glucose homeostasis nonetheless exert control over adiposity.-Page, M. M., Skovsø, S., Cen, H., Chiu, A. P., Dionne, D. A., Hutchinson, D. F., Lim, G. E., Szabat, M., Flibotte, S., Sinha, S., Nislow, C., Rodrigues, B., Johnson, J. D. Reducing insulin via conditional partial gene ablation in adults reverses diet-induced weight gain.

Published
2018

4. Lipids in membrane dynamics during autophagy in plants.

Author

UCL - SST/ISV - Institut des sciences de la vie, Enrique Gomez, Rodrigo, Joubès, Jérôme, Valentin, Nicolas, Batoko, Henri, Satiat-Jeunemaître, Béatrice, Bernard, Amélie, UCL - SST/ISV - Institut des sciences de la vie, Enrique Gomez, Rodrigo, Joubès, Jérôme, Valentin, Nicolas, Batoko, Henri, Satiat-Jeunemaître, Béatrice, and Bernard, Amélie

Abstract

Autophagy is a critical pathway for plant adaptation to stress. Macroautophagy relies on the biogenesis of a specialized membrane named the phagophore that maturates into a double membrane vesicle. Proteins and lipids act synergistically to promote membrane structure and functions, yet research on autophagy has mostly focused on autophagy-related proteins while knowledge of supporting lipids in the formation of autophagic membranes remains scarce. This review expands on studies in plants with examples from other organisms to present and discuss our current understanding of lipids in membrane dynamics associated with the autophagy pathway in plants.

Published
2018

5. Heterotetramerization of Plant PIP1 and PIP2 Aquaporins Is an Evolutionary Ancient Feature to Guide PIP1 Plasma Membrane Localization and Function

Author

UCL - SST/ISV - Institut des sciences de la vie, Bienert, Manuela D., Diehn, Till A., Richet, Nicolas, Chaumont, François, Bienert, Gerd P., UCL - SST/ISV - Institut des sciences de la vie, Bienert, Manuela D., Diehn, Till A., Richet, Nicolas, Chaumont, François, and Bienert, Gerd P.

Abstract

Aquaporins (AQPs) are tetrameric channel proteins regulating the transmembrane flux of small uncharged solutes and in particular water in living organisms. In plants, members of the plasma membrane intrinsic protein (PIP) AQP subfamily are important for the maintenance of the plant water status through the control of cell and tissue hydraulics. The PIP subfamily is subdivided into two groups: PIP1 and PIP2 that exhibit different water-channel activities when expressed in Xenopus oocytes or yeast cells. Most PIP1 and PIP2 isoforms physically interact and assemble in heterotetramers to modulate their subcellular localization and channel activity when they are co-expressed in oocytes, yeasts, and plants. Whether the interaction between different PIPs is stochastic or controlled by cell regulatory processes is still unknown. Here, we analyzed the water transport activity and the subcellular localization behavior of the complete PIP subfamily (SmPIP1;1, SmPIP2;1, and SmPIP2;2) of the lycophyte Selaginella moellendorffii upon (co-)expression in yeast and Xenopus oocytes. As observed for most of the PIP1 and PIP2 isoforms in other species, SmPIP1;1 was retained in the ER while SmPIP2;1 was found in the plasma membrane but, upon co-expression, both isoforms were found in the plasma membrane, leading to a synergistic effect on the water membrane permeability. SmPIP2;2 behaves as a PIP1, being retained in the endoplasmic reticulum when expressed alone in oocytes or in yeasts. Interestingly, in contrast to the oocyte system, in yeasts no synergistic effect on the membrane permeability was observed upon SmPIP1;1/SmPIP2;1 co-expression. We also demonstrated that SmPIP2;1 is permeable to water and the signaling molecule hydrogen peroxide. Moreover, growth- and complementation assays in the yeast system showed that heteromerization in all possible SmPIP combinations did not modify the substrate specificity of the channels. These results suggest that the characteristics known for a

Published
2018

6. Circuitry Rewiring Directly Couples Competence to Predation in the Gut Dweller Streptococcus salivarius

Author

UCL - SST/ISV - Institut des sciences de la vie, Mignolet, Johann, Fontaine, Laetitia, Sass, Andrea, Nannan, Catherine, Mahillon, Jacques, Coenye, Tom, Hols, Pascal, UCL - SST/ISV - Institut des sciences de la vie, Mignolet, Johann, Fontaine, Laetitia, Sass, Andrea, Nannan, Catherine, Mahillon, Jacques, Coenye, Tom, and Hols, Pascal

Abstract

Small distortions in transcriptional networks might lead to drastic phenotypical changes, especially in cellular developmental programs such as competence for natural transformation. Here, we report a pervasive circuitry rewiring for competence and predation interplay in commensal streptococci. Canonically, in streptococci paradigms such as Streptococcus pneumoniae and Streptococcus mutans, the pheromone-based two-component system BlpRH is a central node that orchestrates the production of antimicrobial compounds (bacteriocins) and incorporates signal from the competence activation cascade. However, the human commensal Streptococcus salivarius does not contain a functional BlpRH pair, while the competence signaling system ComRS directly couples bacteriocin production and competence commitment. This network shortcut might underlie an optimal adaptation against microbial competitors and explain the high prevalence of S. salivarius in the human digestive tract. Moreover, the broad spectrum of bacteriocin activity against pathogenic bacteria showcases the commensal and genetically tractable S. salivarius species as a user-friendly model for competence and bacterial predation.

Published
2018

7. The O-GlcNAc transferase OGT interacts with and post-translationally modifies the transcription factor HOXA1.

Author

UCL - SST/ISV - Institut des sciences de la vie, Draime, Amandine, Bridoux, Laure, Belpaire, Magali, Pringels, Tamara, Degand, Hervé, Morsomme, Pierre, Rezsohazy, René, UCL - SST/ISV - Institut des sciences de la vie, Draime, Amandine, Bridoux, Laure, Belpaire, Magali, Pringels, Tamara, Degand, Hervé, Morsomme, Pierre, and Rezsohazy, René

Abstract

HOXA1 belongs to the HOX family of transcription factors which are key regulators of animal development. Little is known about the molecular pathways controlling HOXA1. Recent data from our group revealed distinct partner proteins interacting with HOXA1. Among them, OGT is an O-linked N-acetylglucosamine (O-GlcNAc) transferase modifying a variety of proteins involved in different cellular processes including transcription. Here, we confirm OGT as a HOXA1 interactor, we characterise which domains of HOXA1 and OGT are required for the interaction, and we provide evidence that OGT post-translationally modifies HOXA1. Mass spectrometry experiments indeed reveal that HOXA1 can be phosphorylated on the AGGTVGSPQYIHHSY peptide and that upon OGT expression, the phosphate adduct is replaced by an O-GlcNAc group.

Published
2018

8. Specific interactions measured by AFM on living cells between peroxiredoxin-5 and TLR4: relevance for mechanisms of innate immunity.

Author

UCL - SST/ISV - Institut des sciences de la vie, Knoops, Bernard, Becker, Sarah, Clippe, André, Alsteens, David, UCL - SST/ISV - Institut des sciences de la vie, Knoops, Bernard, Becker, Sarah, Clippe, André, and Alsteens, David

Abstract

Inflammation is a pathophysiological response of innate immunity to infection or tissue damage. This response is among others triggered by factors released by damaged or dying cells, termed damage-associated molecular pattern (DAMP) molecules that act as danger signals. DAMPs interact with pattern recognition receptors (PRRs) to contribute to the induction of inflammation. However, how released peroxiredoxins (PRDXs) are able to activate PRRs, such as Toll-like receptors (TLRs), remains elusive. Here, we used force-distance curve-based atomic force microscopy to investigate the molecular mechanisms by which extracellular human PRDX5 can activate a proinflammatory response. Single-molecule experiments demonstrated that PRDX5 binds to purified TLR4 receptors, on macrophage-differentiated THP-1 cells, and on human TLR4-transfected CHO cells. These findings suggest that extracellular PRDX5 can specifically trigger a proinflammatory response. Moreover, our work also revealed that PRDX5 binding induces a cellular mechanoresponse. Collectively, this study provides insights into the role of extracellular PRDX5 in innate immunity.

Published
2018

9. Molecular adaptation to high pressure in cytochrome P450 1A and aryl hydrocarbon receptor systems of the deep-sea fish Coryphaenoides armatus.

Author

UCL - SST/ISV - Institut des sciences de la vie, Lemaire Benjamin, Karchner S.I., Goldstone J.A., Lamb D.C., Drazen J.C., Rees, Jean-François, UCL - SST/ISV - Institut des sciences de la vie, Lemaire Benjamin, Karchner S.I., Goldstone J.A., Lamb D.C., Drazen J.C., and Rees, Jean-François

Abstract

Limited knowledge of the molecular evolution of deep-sea fish proteomes so far suggests that a few widespread residue substitutions in cytosolic proteins binding hydrophilic ligands contribute to resistance to the effects of high hydrostatic pressure (HP). Structure-function studies with additional protein systems, including membrane bound proteins, are essential to provide a more general picture of adaptation in these extremophiles. We explored molecular features of HP adaptation in proteins binding hydrophobic ligands, either in lipid bilayers (cytochrome P450 1A - CYP1A) or in the cytosol (the aryl hydrocarbon receptor - AHR), and their partners P450 oxidoreductase (POR) and AHR nuclear translocator (ARNT), respectively. Cloning studies identified the full-length coding sequence of AHR, CYP1A and POR, and a partial sequence of ARNT from Coryphaenoides armatus, an abyssal gadiform fish thriving down to 5000m depth. Inferred protein sequences were aligned with many non-deep-sea homologs to identify unique amino acid substitutions of possible relevance in HP adaptation. Positionally unique substitutions of various physicochemical properties were found in all four proteins, usually at sites of strong-to-absolute residue conservation. Some were in domains deemed important for protein-protein interaction or ligand binding. In addition, some involved removal or addition of beta-branched residues; local modifications of beta-branched residue patterns could be important to HP adaptation. In silico predictions further suggested that some unique substitutions might substantially modulate the flexibility of the polypeptide segment in which they are found. Repetitive motifs unique to the abyssal fish AHR were predicted to be rich in glycosylation sites, suggesting that post-translational changes could be involved in adaptation as well. Recombinant CYP1A and AHR showed functional properties (spectral characteristics, catalytic activity and ligand binding) that demonstrate prop

Published
2018

10. Body lipid composition modulates acute cadmium toxicity in Daphnia magna adults and juveniles.

Author

UCL - SST/ISV - Institut des sciences de la vie, Ferain, Aline, De Saeyer Nancy, Larondelle, Yvan, Rees, Jean-François, Debier, Cathy, De Schamphelaere K.A.C., UCL - SST/ISV - Institut des sciences de la vie, Ferain, Aline, De Saeyer Nancy, Larondelle, Yvan, Rees, Jean-François, Debier, Cathy, and De Schamphelaere K.A.C.

Abstract

Long chain polyunsaturated fatty acids (LC-PUFAs) such as eicosapentaenoic acid (EPA, 20:5n-3) affect zooplankton fitness and ability to cope with environmental stressors. However, the impact of LC-PUFAs on zooplankton sensitivity to chemical stressors is unknown. Here, we aimed to document the interaction between EPA and cadmium (Cd), as model chemical stressor, in Daphnia magna. A life-history experiment was performed in which daphnid neonates were raised into adulthood on three diets of different lipid composition: (i) algae mix; (ii) algae mix supplemented with control liposomes; (iii) algae mix supplemented with liposomes containing EPA. Juveniles (3rd, 4th and 5th brood) released by daphnids during this life-history experiment were sampled, challenged with Cd during 48 h and their immobility was assessed. At the end of this life-history experiment, another immobilisation test was performed with adults from each treatment. Daphnids absorbed, incorporated and transferred ingested EPA to their offspring. Liposome feeding increased adult tolerance to Cd. The presence of EPA in liposomes did not increase adult tolerance to Cd. Offspring's tolerance to Cd was influenced by the brood number and the maternal diet. It was positively correlated with the PUFA level in body neutral lipids, especially alpha-linolenic acid (ALA, 18:3n-3) and negatively correlated with the saturated fatty acid level in body neutral lipids, especially stearic acid (18:0). Overall, these results emphasize the importance of dietary lipids and maternal transfer of body lipids in D. magna sensitivity to Cd and highlight the need to take into account these parameters in ecotoxicological studies and risk assessment.

Published
2018

11. The Hidden Face of Rubisco.

Author

UCL - SST/ISV - Institut des sciences de la vie, Pottier, Mathieu, Gilis, Dimitri, Boutry, Marc, UCL - SST/ISV - Institut des sciences de la vie, Pottier, Mathieu, Gilis, Dimitri, and Boutry, Marc

Abstract

Ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) fixes atmospheric CO into organic compounds and is composed of eight copies each of a large subunit (RbcL) and a small subunit (RbcS). Recent reports have revealed unusual RbcS, which are expressed in particular tissues and confer higher catalytic rate, lesser affinity for CO, and a more acidic profile of the activity versus pH. The resulting Rubisco was proposed to be adapted to a high CO environment and recycle CO generated by the metabolism. These RbcS belong to a cluster named T (for trichome), phylogenetically distant from cluster M, which gathers well-characterized RbcS expressed in mesophyll or bundle-sheath tissues. Cluster T is largely represented in different plant phyla, including pteridophytes and bryophytes, indicating an ancient origin.

Published
2018

12. The curious case of peroxiredoxin-5 : what its absence in aves can tell us and how it can be used.

Author

UCL - SST/ISV - Institut des sciences de la vie, Pirson, Marc, Clippe, André, Knoops, Bernard, UCL - SST/ISV - Institut des sciences de la vie, Pirson, Marc, Clippe, André, and Knoops, Bernard

Abstract

BACKGROUND: Peroxiredoxins are ubiquitous thiol-dependent peroxidases that represent a major antioxidant defense in both prokaryotic cells and eukaryotic organisms. Among the six vertebrate peroxiredoxin isoforms, peroxiredoxin-5 (PRDX5) appears to be a particular peroxiredoxin, displaying a different catalytic mechanism, as well as a wider substrate specificity and subcellular distribution. In addition, several evolutionary peculiarities, such as loss of subcellular targeting in certain species, have been reported for this enzyme. RESULTS: Western blotting analyses of 2-cys PRDXs (PRDX1-5) failed to identify the PRDX5 isoform in chicken tissue homogenates. Thereafter, via in silico analysis of PRDX5 orthologs, we went on to show that the PRDX5 gene is conserved in all branches of the amniotes clade, with the exception of aves. Further investigation of bird genomic sequences and expressed tag sequences confirmed the disappearance of the gene, though TRMT112, a gene located closely to the 5' extremity of the PRDX5 gene, is conserved. Finally, using in ovo electroporation to overexpress the long and short forms of human PRDX5, we showed that, though the gene is lost in birds, subcellular targeting of human PRDX5 is conserved in the chick. CONCLUSIONS: Further adding to the distinctiveness of this enzyme, this study reports converging evidence supporting loss of PRDX5 in aves. In-depth analysis revealed that this absence is proper to birds as PRDX5 appears to be conserved in non-avian amniotes. Finally, taking advantage of the in ovo electroporation technique, we validate the subcellular targeting of human PRDX5 in the chick embryo and bring forward this gain-of-function model as a potent way to study PRDX5 functions in vivo.

Published
2018

13. Role of peroxiredoxin-5 in inflammation and tumor suppression.

Author

UCL - SST/ISV - Institut des sciences de la vie, Argyropoulou, Vasiliki, Goemaere Julie, Lefort, Charlotte, Tissir, Fadel, Huaux, François, Guiot, Yves, Marbaix, Etienne, Galant, Christine, Knoops, Bernard, Groupe de contact FNRS "Oxidative Processes and Antioxidants" meeting on "Oxidative Stress in Subcellular Compartments", UCL - SST/ISV - Institut des sciences de la vie, Argyropoulou, Vasiliki, Goemaere Julie, Lefort, Charlotte, Tissir, Fadel, Huaux, François, Guiot, Yves, Marbaix, Etienne, Galant, Christine, Knoops, Bernard, and Groupe de contact FNRS "Oxidative Processes and Antioxidants" meeting on "Oxidative Stress in Subcellular Compartments"

Published
2018

14. Modulation of peroxiredoxin-5 by LPS and MicroRNAs in mouse and human phagocytes.

Author

UCL - SST/ISV - Institut des sciences de la vie, Becker, Sarah, Lauwers Eric, Glibert, Julien, Haumont, Alice, Knoops, Bernard, Toll 2018 - Editing innate immunity, UCL - SST/ISV - Institut des sciences de la vie, Becker, Sarah, Lauwers Eric, Glibert, Julien, Haumont, Alice, Knoops, Bernard, and Toll 2018 - Editing innate immunity

Published
2018

15. Specific interactions between peroxiredoxin-5 and Toll-like receptor-4 measured by atomic force microscopy.

Author

UCL - SST/ISV - Institut des sciences de la vie, Poncin M., Glibert, Julien, Becker, Sarah, Derclaye, Sylvie, Clippe, André, Knoops, Bernard, Alsteens, David, Groupe de contact FNRS "Oxidative Processes and Antioxidants" meeting on "Oxidative Stress in Subcellular Compartments", UCL - SST/ISV - Institut des sciences de la vie, Poncin M., Glibert, Julien, Becker, Sarah, Derclaye, Sylvie, Clippe, André, Knoops, Bernard, Alsteens, David, and Groupe de contact FNRS "Oxidative Processes and Antioxidants" meeting on "Oxidative Stress in Subcellular Compartments"

Published
2018

16. Uptake, Loss and Control

Author

UCL - SST/ISV - Institut des sciences de la vie, Jeanguenin, Linda, Pou Mir, Alicia, Chaumont, François, UCL - SST/ISV - Institut des sciences de la vie, Jeanguenin, Linda, Pou Mir, Alicia, and Chaumont, François

Abstract

Water flow in plants involves tightly controlled processes that drive water movement from the rhizosphere to the leaf–atmosphere interface. Water molecules cross plant tissues radially via the apoplast and/or via a cell-to-cell path, which involves the contribution of water channels named aquaporins, and axially via the xylem vessels. Water uptake by roots and its loss through stomata at the leaf surface are regulated by environmental parameters including soil water availability and vapor deficit pressure, which combines air relative humidity and temperature. These parameters directly affect the transpiration stream, which is the driving force for long-distance water movement in plants. In addition, signaling molecules, such as the hormone abscisic acid, regulate the water uptake or loss. The mechanisms controlling the water flow under water deficit conditions are summarized together with the experimental tools to measure water status parameters.

Published
2017

17. Atypical composition and structure of the mitochondrial dimeric ATP synthase from Euglena gracilis

Author

UCL - SST/ISV - Institut des sciences de la vie, Yadav, K.N. Satish, Miranda-Astudillo, Hector, Colina-Tenorio, Lilia, Bouillenne, Fabrice, Degand, Hervé, Morsomme, Pierre, Gonzales-halphen, Diego, Boekema, Egbert, Cardol, Pierre, UCL - SST/ISV - Institut des sciences de la vie, Yadav, K.N. Satish, Miranda-Astudillo, Hector, Colina-Tenorio, Lilia, Bouillenne, Fabrice, Degand, Hervé, Morsomme, Pierre, Gonzales-halphen, Diego, Boekema, Egbert, and Cardol, Pierre

Abstract

Mitochondrial respiratory-chain complexes from Euglenozoa comprise classical subunits described in other eukaryotes (i.e. mammals and fungi) and subunits that are restricted to Euglenozoa (e.g. Euglena gracilis and Trypanosoma brucei). Here we studied the mitochondrial F1FO-ATP synthase (or Complex V) from the photosynthetic eukaryote E. gracilis in detail. The enzyme was purified by a two-step chromatographic procedure and its subunit composition was resolved by a three- dimensional gel electrophoresis (BN/SDS/SDS). Twenty-two different subunits were identified by mass-spectrometry analyses among which the canonical alpha, beta, gamma, delta, epsilon and OSCP subunits, and at least seven subunits previously found in Trypanosoma. The ADP/ATP carrier was also associated to the ATP synthase into a dimeric ATP synthasome. Single-particle analysis by transmission electron microscopy of the dimeric ATP synthase indicated that the structures of both the catalytic and central rotor parts are conserved while other structural features are original. These new features include a large membrane-spanning region joining the monomers, an external peripheral stalk and a structure that goes through the membrane and reaches the inter membrane space below the c-ring, the latter having not been reported for any mitochondrial F-ATPase.

Published
2017

18. Nanomechanical mapping of first binding steps of a virus to animal cells.

Author

UCL - SST/ISV - Institut des sciences de la vie, Alsteens, David, Newton, Richard, Schubert, Rajib, Martinez-Martin, David, Delguste, Martin, Roska, Botond, Müller, Daniel J, UCL - SST/ISV - Institut des sciences de la vie, Alsteens, David, Newton, Richard, Schubert, Rajib, Martinez-Martin, David, Delguste, Martin, Roska, Botond, and Müller, Daniel J

Abstract

Viral infection is initiated when a virus binds to cell surface receptors. Because the cell membrane is dynamic and heterogeneous, imaging living cells and simultaneously quantifying the first viral binding events is difficult. Here, we show an atomic force and confocal microscopy set-up that allows the surface receptor landscape of cells to be imaged and the virus binding events within the first millisecond of contact with the cell to be mapped at high resolution (<50 nm). We present theoretical approaches to contour the free-energy landscape of early binding events between an engineered virus and cell surface receptors. We find that the first bond formed between the viral glycoprotein and its cognate cell surface receptor has relatively low lifetime and free energy, but this increases as additional bonds form rapidly (≤1 ms). The formation of additional bonds occurs with positive allosteric modulation and the three binding sites of the viral glycoprotein are quickly occupied. Our quantitative approach can be readily applied to study the binding of other viruses to animal cells.

Published
2017

19. Roles of Aquaporins in Stomata

Author

UCL - SST/ISV - Institut des sciences de la vie, Hachez, Charles, Milhiet, Thomas, Heinen, Robert, Chaumont, François, UCL - SST/ISV - Institut des sciences de la vie, Hachez, Charles, Milhiet, Thomas, Heinen, Robert, and Chaumont, François

Abstract

Aquaporins are channel proteins that facilitate the diffusion of water and small uncharged solutes across cellular membranes. Plant aquaporins form a large family of highly divergent proteins that are involved in many different physiological processes. This book will summarize the recent advances regarding plant aquaporins, their phylogeny, structure, substrate specificity, mechanisms of regulation and roles in various important physiological processes related to the control of water flow and small solute distribution at the cell, tissue and plant level in an ever-changing environment.

Published
2017

20. Plant Aquaporins: From Transport to Signaling

Author

UCL - SST/ISV - Institut des sciences de la vie, Chaumont, François, Tyerman, Stephen, D., UCL - SST/ISV - Institut des sciences de la vie, Chaumont, François, and Tyerman, Stephen, D.

Abstract

Aquaporins are channel proteins that facilitate the diffusion of water and small uncharged solutes across cellular membranes. Plant aquaporins form a large family of highly divergent proteins that are involved in many different physiological processes. This book will summarize the recent advances regarding plant aquaporins, their phylogeny, structure, substrate specificity, mechanisms of regulation and roles in various important physiological processes related to the control of water flow and small solute distribution at the cell, tissue and plant level in an ever-changing environment.

Published
2017

21. Heteromerization of Plant Aquaporins

Author

UCL - SST/ISV - Institut des sciences de la vie, Jozefkowicz, Cintia, Berny, Marie, Chaumont, François, Alleva, Karina, UCL - SST/ISV - Institut des sciences de la vie, Jozefkowicz, Cintia, Berny, Marie, Chaumont, François, and Alleva, Karina

Abstract

Aquaporins are channel proteins that facilitate the diffusion of water and small uncharged solutes across cellular membranes. Plant aquaporins form a large family of highly divergent proteins that are involved in many different physiological processes. This book will summarize the recent advances regarding plant aquaporins, their phylogeny, structure, substrate specificity, mechanisms of regulation and roles in various important physiological processes related to the control of water flow and small solute distribution at the cell, tissue and plant level in an ever-changing environment.

Published
2017

22. Investigating the roles of plasma membrane aquaporins in maize water relations and leaf growth using a transgenic approach

Author

UCL - SST/ISV - Institut des sciences de la vie, UCL - Faculté des Sciences, Draye, Xavier, Moshelion, Menachem, Nelissen, Hilde, Chaumont, François, Knoops, Bernard, Boutry, Marc, Milhiet, Thomas, UCL - SST/ISV - Institut des sciences de la vie, UCL - Faculté des Sciences, Draye, Xavier, Moshelion, Menachem, Nelissen, Hilde, Chaumont, François, Knoops, Bernard, Boutry, Marc, and Milhiet, Thomas

Abstract

Plant aquaporins are highly regulated water channels controlling the water flow across cell membranes. The quantification of the expression of plasma membrane aquaporins (PIPs) in maize roots, leaves, stomatal complexes and reproductive organs showed that the expression was dependent on the organ developmental stage and environmental conditions. This work aimed at investigating the physiological roles of PIP aquaporins using a transgenic approach. We focused our attention on PIP isoforms known to be highly or specifically expressed in some tissues. ZmPIP2;5 is one of most highly expressed aquaporins in roots and its association with apoplastic barriers suggests a role in the radial water movement. ZmPIP1;6 is almost exclusively expressed in stomatal complexes following a strict diurnal pattern and could have a role in stomatal movements in response to environmental stimuli. After transformation and selection of the maize transgenic lines overexpressing these isoforms, physiological parameters were investigated in hydroponic culture and compared to wild-type plants. Interestingly, while no differences of gas exchange were found in normal conditions or upon osmotic stress, both ZmPIP1;6 and ZmPIP2;5 overexpressing lines showed improved root hydraulic properties. The growth of these plants in water deficit conditions was analyzed in phenotyping platforms and revealed different responses to evaporative demand. ZmPIP2;5 overexpressing lines showed a better leaf growth rate under severe water stress. These data demonstrate the role of PIP aquaporins in fine-tuning the hydraulic properties of the plant to control its development and physiology in changing environmental conditions., (SC - Sciences) -- UCL, 2017

Published
2017

23. A comprehensive proteome map of glandular trichomes of hop (Humulus lupulus L.) female cones: Identification of biosynthetic pathways of the major terpenoid-related compounds and possible transport proteins.

Author

UCL - SST/ISV - Institut des sciences de la vie, Champagne, Antoine, Boutry, Marc, UCL - SST/ISV - Institut des sciences de la vie, Champagne, Antoine, and Boutry, Marc

Abstract

Female flowers of hop (Humulus lupulus) are an essential source of terpenoid-related compounds, which are mainly used as flavoring in the beer brewing process. The compounds involved are bitter acids, terpenophenolics, as well as mono- and sesquiterpenoids. In this work, we analyzed the proteome of purified glandular trichomes (lupulin glands) from female flowers, which produce and accumulate these compounds. An extensive 2D-LC-MS/MS analysis identified 1,015 proteins. Of these, most correspond to housekeeping and primary metabolism-related proteins, albeit predominantly including amino acid and lipid metabolism, which feeds the specialized (secondary) metabolism. Indeed, 75 proteins belong to the specialized metabolism. No less than 40 enzymes are involved in the synthesis of terpenoid-derived compounds and 21 are predicted transporters, some of which might be involved in the transport of specialized metabolites. We discuss the possible routes involved in the intra- and intercellular translocation of terpenoids and their precursors. This comprehensive proteomic map of the glandular trichomes of hop female flowers represents a valuable resource to improve our knowledge on the function of glandular trichomes. This article is protected by copyright. All rights reserved.

Published
2017

24. Manganese-induced turnover of TMEM165

Author

UCL - SST/ISV - Institut des sciences de la vie, Potelle, Sven, Dulary, Eudoxie, Climer, Leslie, Duvet, Sandrine, Morelle, Willy, Vicogne, Dorothée, Lebredonchel, Elodie, Houdou, Marine, Spriet, Corentin, Krzewinski-Recchi, Marie-Ange, Peanne, Romain, Klein, André, de Bettignies, Geoffroy, Morsomme, Pierre, Matthijs, Gert, Marquardt, Thorsten, Lupashin, Vladimir, Foulquier, François, UCL - SST/ISV - Institut des sciences de la vie, Potelle, Sven, Dulary, Eudoxie, Climer, Leslie, Duvet, Sandrine, Morelle, Willy, Vicogne, Dorothée, Lebredonchel, Elodie, Houdou, Marine, Spriet, Corentin, Krzewinski-Recchi, Marie-Ange, Peanne, Romain, Klein, André, de Bettignies, Geoffroy, Morsomme, Pierre, Matthijs, Gert, Marquardt, Thorsten, Lupashin, Vladimir, and Foulquier, François

Abstract

TMEM165 deficiencies lead to one of the Congenital Disorders of Glycosylation (CDG), a group of inherited diseases where the glycosylation process is altered. We recently demonstrated that the Golgi glycosylation defect due to TMEM165 deficiency resulted from Golgi manganese homeostasis defect and that Mn2+ supplementation was sufficient to rescue normal glycosylation. In this paper we highlight TMEM165 as a novel Golgi protein sensitive to manganese. When cells were exposed to high Mn2+ concentrations, TMEM165 was degraded in lysosomes. Remarkably, while the variant R126H was sensitive upon manganese exposure, the variant E108G recently identified in a novel TMEM165-CDG patient, was found to be insensitive. We also showed that the E108G mutation did not abolish the function of TMEM165 in Golgi glycosylation. Altogether this study identified the Golgi protein TMEM165 as a novel Mn2+ sensitive protein in mammalian cells and pointed to the crucial importance of the glutamic acid (E108) in the cytosolic ELGDK motif in Mn2+ induced degradation of TMEM165.

Published
2017

26. Atomic force microscopy-based characterization and design of biointerfaces

Author

UCL - SST/ISV - Institut des sciences de la vie, Alsteens, David, Gaub, Hermann E., Newton, Richard, Pfreundschuh, Moritz, Gerber, Christoph, Müller, Daniel J., UCL - SST/ISV - Institut des sciences de la vie, Alsteens, David, Gaub, Hermann E., Newton, Richard, Pfreundschuh, Moritz, Gerber, Christoph, and Müller, Daniel J.

Abstract

Atomic force microscopy (AFM)-based methods have matured into a powerful nanoscopic platform, enabling the characterization of a wide range of biological and synthetic biointerfaces ranging from tissues, cells, membranes, proteins, nucleic acids and functional materials. Although the unprecedented signal-to-noise ratio of AFM enables the imaging of biological interfaces from the cellular to the molecular scale, AFM-based force spectroscopy allows their mechanical, chemical, conductive or electrostatic, and biological properties to be probed. The combination of AFM-based imaging and spectroscopy structurally maps these properties and allows their 3D manipulation with molecular precision. In this Review, we survey basic and advanced AFM-related approaches and evaluate their unique advantages and limitations in imaging, sensing, parameterizing and designing biointerfaces. It is anticipated that in the next decade these AFM-related techniques will have a profound influence on the way researchers view, characterize and construct biointerfaces, thereby helping to solve and address fundamental challenges that cannot be addressed with other techniques.

Published
2017

27. Imaging modes of atomic force microscopy for application in molecular and cell biology

Author

UCL - SST/ISV - Institut des sciences de la vie, Dufrêne, Yves, Ando, Toshio, Garcia, Ricardo, Alsteens, David, Martinez-Martin, David, Engel, Andreas, Gerber, Christoph, Müller, Daniel J., UCL - SST/ISV - Institut des sciences de la vie, Dufrêne, Yves, Ando, Toshio, Garcia, Ricardo, Alsteens, David, Martinez-Martin, David, Engel, Andreas, Gerber, Christoph, and Müller, Daniel J.

Abstract

Atomic force microscopy (AFM) is a powerful, multifunctional imaging platform that allows biological samples, from single molecules to living cells, to be visualized and manipulated. Soon after the instrument was invented, it was recognized that in order to maximize the opportunities of AFM imaging in biology, various technological developments would be required to address certain limitations of the method. This has led to the creation of a range of new imaging modes, which continue to push the capabilities of the technique today. Here, we review the basic principles, advantages and limitations of the most common AFM bioimaging modes, including the popular contact and dynamic modes, as well as recently developed modes such as multiparametric, molecular recognition, multifrequency and high-speed imaging. For each of these modes, we discuss recent experiments that highlight their unique capabilities.

Published
2017

28. Multiparametric Atomic Force Microscopy Imaging of Biomolecular and Cellular Systems

Author

UCL - SST/ISV - Institut des sciences de la vie, Alsteens, David, Müller, Daniel J., Dufrêne, Yves F., UCL - SST/ISV - Institut des sciences de la vie, Alsteens, David, Müller, Daniel J., and Dufrêne, Yves F.

Abstract

There is a need in biochemical research for new tools that can image and manipulate biomolecular and cellular systems at the nanoscale. During the past decades, there has been tremendous progress in developing atomic force microscopy (AFM) techniques to analyze biosystems, down to the single-molecule level. Force–distance (FD) curve-based AFM in particular has enabled researchers to map and quantify biophysical properties and biomolecular interactions on a wide variety of specimens. Despite its great potential, this AFM method has long been limited by its low spatial and temporal resolutions. Recently, novel FD-based multiparametric imaging modalities have been developed, allowing us to simultaneously image the structure, elasticity and interactions of biological samples at high spatiotemporal resolution. By oscillating the AFM tip, spatially resolved FD curves are obtained at much higher frequency than before, and as a result, samples are mapped at a speed similar to that of conventional topographic imaging. In this Account, we discuss the general principle of multiparametric AFM imaging and we provide a snapshot of recent studies showing how this new technology has been applied to biological specimens, from soluble proteins to membranes and cells. We emphasize novel methodologies that we recently developed, in which multiparametric imaging is combined with probes functionalized with chemical groups, ligands, or even live cells, in order to image and quantify receptor interaction forces and free-energy landscapes in a way not possible before. Key breakthroughs include observing the mechanical and chemical properties of single proteins in purple membranes, measuring the electrostatic potential of transmembrane pore forming proteins, structurally localizing chemical groups of water-soluble proteins, mapping and nanomechanical analysis of single sensors on yeast cells, imaging the sites of assembly and extrusion of single filamentous bacteriophages in living bacteria

Published
2017

29. Mathematical modeling of the genetic regulatory network controlling competence for natural transformation in Streptococcus thermophilus

Author

UCL - SST/ISV - Institut des sciences de la vie, UCL - Faculté des Sciences, Hols, Pascal, Fontaine, Laetitia, Hallet, Bernard, Bastin, Georges, Mahillon, Jacques, De Bolle, Xavier, Bernard, Olivier, Haustenne, Gabrielle, UCL - SST/ISV - Institut des sciences de la vie, UCL - Faculté des Sciences, Hols, Pascal, Fontaine, Laetitia, Hallet, Bernard, Bastin, Georges, Mahillon, Jacques, De Bolle, Xavier, Bernard, Olivier, and Haustenne, Gabrielle

Abstract

Bacteria are everywhere, and can be either highly beneficial or dangerous for humans. To evolve, they have developed sophisticated systems enhancing their genetic plasticity. Competence for natural transformation is a horizontal gene transfer mechanism enabling competent cells to stably acquire exogenous DNA. It is a transient physiological state, characterized in streptococci by a high level of ComX alternative sigma-factor, the master regulator of competence, which re-directs the transcription program towards the activation of genes involved in DNA acquisition. Because of the energetic cost of competence, ComX production is tightly regulated. The ComRS signaling system controls comX expression in the industrial dairy species Streptococcus thermophilus. Interestingly, the transformability of this species varies dramatically between different strains. This work aims at shedding light on the poorly understood inner workings of the ComRS system, by combining mathematical modeling and experimental approaches in order to uncover the topological hierarchy and dynamics of the timing-device function of the system, and to unravel the shut-off mechanism of competence in S. thermophilus. Moreover, the model aimed at better understanding the variability in competence levels observed among different strains of this species. For that purpose, we built a deterministic, population-scaled model of the time-course evolution of proximal players regulating comX expression. The model equations were designed to capture all the a priori knowledge available about the ComRS proximal system. First, an original forth-and-back learning step was used to calibrate the model parameters, by using a set of experimental data consisting in transcriptional profiles obtained from luciferase reporter strains in various mutant backgrounds. Second, an independent set of experimental data was used in order to assess the model quality, by testing its robustness against varying simulated scenarios, and its, (SC - Sciences) -- UCL, 2017

Published
2017

30. Toward a better understanding of the mechanisms of symbiosis: a comprehensive proteome map of a nascent insect symbiont

Author

UCL - SST/ELI/ELIB - Biodiversity, UCL - SST/ISV - Institut des sciences de la vie, Renoz, François, Champagne, Antoine, Degand, Hervé, Faber, Anne-Marie, Morsomme, Pierre, Foray, Vincent, Hance, Thierry, UCL - SST/ELI/ELIB - Biodiversity, UCL - SST/ISV - Institut des sciences de la vie, Renoz, François, Champagne, Antoine, Degand, Hervé, Faber, Anne-Marie, Morsomme, Pierre, Foray, Vincent, and Hance, Thierry

Abstract

Symbiotic bacteria are common in insects and can affect various aspects of their hosts’ biology. Although the effects of insect symbionts have been clarified for various insect symbiosis models, due to the difficulty of cultivating them in vitro, there is still limited knowledge available on the molecular features that drive symbiosis. Serratia symbiotica is one of the most common symbionts found in aphids. The recent findings of free-living strains that are considered as nascent partners of aphids provide the opportunity to examine the molecular mechanisms that a symbiont can deployed at the early stages of the symbiosis (i.e., symbiotic factors). In this work, a proteomic approach was used to establish a comprehensive proteome map of the free-living S. symbiotica strain CWBI-2.3T. Most of the 720 proteins identified are related to housekeeping or primary metabolism. Of these, 76 were identified as candidate proteins possibly promoting host colonization. Our results provide strong evidence that S. symbiotica CWBI-2.3T is well-armed for invading insect host tissues, and suggest that certain molecular features usually harbored by pathogenic bacteria are no longer present. This comprehensive proteome map provides a series of candidate genes for further studies to understand the molecular cross-talk between insects and symbiotic bacteria.

Published
2017

32. Unlocking Tn3-family transposase activity in vitro unveils an asymetric pathway for transposome assembly.

Author

UCL - SST/ISV - Institut des sciences de la vie, Nicolas, Emilien, Oger, Cédric, Nguyen, Nathan, Lambin, Michaël, Draime, Amandine, Leterme, Sébastien, Chandler, Michael, Hallet, Bernard, UCL - SST/ISV - Institut des sciences de la vie, Nicolas, Emilien, Oger, Cédric, Nguyen, Nathan, Lambin, Michaël, Draime, Amandine, Leterme, Sébastien, Chandler, Michael, and Hallet, Bernard

Abstract

The Tn3 family is a widespread group of replicative transposons that are notorious for their contribution to the dissemination of antibiotic resistance and the emergence of multiresistant pathogens worldwide. The TnpA transposase of these elements catalyzes DNA breakage and rejoining reactions required for transposition. It also is responsible for target immunity, a phenomenon that prevents multiple insertions of the transposon into the same genomic region. However, the molecular mechanisms whereby TnpA acts in both processes remain unknown. Here, we have developed sensitive biochemical assays for the TnpA transposase of the Tn3-family transposon Tn4430 and used these assays to characterize previously isolated TnpA mutants that are selectively affected in immunity. Compared with wild-type TnpA, these mutants exhibit deregulated activities. They spontaneously assemble a unique asymmetric synaptic complex in which one TnpA molecule simultaneously binds two transposon ends. In this complex, TnpA is in an activated state competent for DNA cleavage and strand transfer. Wild-type TnpA can form this complex only on precleaved ends mimicking the initial step of transposition. The data suggest that transposition is controlled at an early stage of transpososome assembly, before DNA cleavage, and that mutations affecting immunity have unlocked TnpA by stabilizing the protein in a monomeric activated synaptic configuration. We propose an asymmetric pathway for coupling active transpososome assembly with proper target recruitment and discuss this model with respect to possible immunity mechanisms.

Published
2017

34. Natural DNA transformation is functional in Lactococcus lactis ssp. cremoris KW2.

Author

UCL - SST/ISV - Institut des sciences de la vie, David, Blandine, Radziejwoski, Amandine, Toussaint, Frédéric, Fontaine, Laetitia, Henry de Frahan, Marie, Patout, Cédric, van Dillen, Sabine, Boyaval, Patrick, Horvath, Philippe, Fremaux, Christophe, Hols, Pascal, UCL - SST/ISV - Institut des sciences de la vie, David, Blandine, Radziejwoski, Amandine, Toussaint, Frédéric, Fontaine, Laetitia, Henry de Frahan, Marie, Patout, Cédric, van Dillen, Sabine, Boyaval, Patrick, Horvath, Philippe, Fremaux, Christophe, and Hols, Pascal

Abstract

Lactococcus lactis is one of the most commonly used lactic acid bacteria in the dairy industry. Activation of competence for natural DNA transformation in this species would greatly improve the selection of novel strains with desired genetic traits. Here, we investigated the activation of natural transformation in L. lactis ssp. cremoris KW2, a strain of plant origin whose genome encodes the master competence regulator ComX and the complete set of proteins usually required for natural transformation. In the absence of knowledge about competence regulation in this species, we constitutively overproduced ComX in a reporter strain of late competence phase activation and showed, by transcriptomic analyses, a ComX-dependent induction of all key competence genes. We further demonstrated that natural DNA transformation is functional in this strain and requires the competence DNA uptake machinery. Since constitutive ComX overproduction is unstable, we alternatively expressed comX under the control of an endogenous xylose-inducible promoter. This regulated system was used to successfully inactivate the adaptor protein MecA and subunits of the Clp proteolytic complex, which were previously shown to be involved in ComX degradation in streptococci. In the presence of a low amount of ComX, the deletion of mecA, clpC, or clpP genes markedly increased the activation of the late competence phase and transformability. Altogether, our results report the functionality of natural DNA transformation in L. lactis and pave the way for the identification of signaling mechanisms that trigger the competence state in this species.IMPORTANCELactococcus lactis is a lactic acid bacterium of major importance, which is used as a starter species for milk fermentation, a host for heterologous protein production, and a delivery platform for therapeutic molecules. Here, we report the functionality of natural transformation in L. lactis ssp. cremoris KW2 by the overproduction of the master competence r

Published
2017

35. Ubiquitous rewiring of transcriptional control in streptococci: lessons from competence and predation coupling in Streptococcus salivarius

Author

UCL - SST/ISV - Institut des sciences de la vie, Mignolet, Johann, Fontaine, Laetitia, Hols, Pascal, 19th International Conference on Bacilli and other Gram-Positive Bacteria, UCL - SST/ISV - Institut des sciences de la vie, Mignolet, Johann, Fontaine, Laetitia, Hols, Pascal, and 19th International Conference on Bacilli and other Gram-Positive Bacteria

Published
2017

36. Enhanced Drought Stress Tolerance by the Arbuscular Mycorrhizal Symbiosis in a Drought-Sensitive Maize Cultivar Is Related to a Broader and Differential Regulation of Host Plant Aquaporins than in a Drought-Tolerant Cultivar

Author

UCL - SST/ISV - Institut des sciences de la vie, Quiroga, Gabriela, Erice, Gorka, Aroca, Ricardo, Chaumont, François, Ruiz-Lozano, Juan M., UCL - SST/ISV - Institut des sciences de la vie, Quiroga, Gabriela, Erice, Gorka, Aroca, Ricardo, Chaumont, François, and Ruiz-Lozano, Juan M.

Published
2017

37. QuickLib, a method for building fully synthetic plasmid libraries by seamless cloning of degenerate oligonucleotides.

Author

UCL - SST/ISV - Institut des sciences de la vie, Galka, Pierre, Jamez, Elisabeth, Joachim, Gilles, Soumillion, Patrice, UCL - SST/ISV - Institut des sciences de la vie, Galka, Pierre, Jamez, Elisabeth, Joachim, Gilles, and Soumillion, Patrice

Abstract

Incorporation of synthetic degenerate oligonucleotides into plasmids for building highly diverse genetic libraries requires efficient and quantitative DNA manipulation. We present a fast and seamless method for generating libraries of PCR-synthesized plasmids designed with a degenerate sequence and short overlapping ends. Our method called QuickLib should find many applications in synthetic biology; as an example, we easily prepared genetic libraries of Escherichia coli expressing billions of different backbone cyclic peptides.

Published
2017

38. Emission of volatile organic compounds from petunia flowers is facilitated by an ABC transporter.

Author

UCL - SST/ISV - Institut des sciences de la vie, Adebesin, Funmilayo, Widhalm, Joshua R, Boachon, Benoît, Lefèvre, François, Pierman, Baptiste, Lynch, Joseph H, Alam, Iftekhar, Teodoro Junqueira, Bruna Rayane, Benke, Ryan, Ray, Shaunak, Porter, Justin A, Yanagisawa, Makoto, Wetzstein, Hazel Y, Morgan, John A, Boutry, Marc, Schuurink, Robert C, Dudareva, Natalia, UCL - SST/ISV - Institut des sciences de la vie, Adebesin, Funmilayo, Widhalm, Joshua R, Boachon, Benoît, Lefèvre, François, Pierman, Baptiste, Lynch, Joseph H, Alam, Iftekhar, Teodoro Junqueira, Bruna Rayane, Benke, Ryan, Ray, Shaunak, Porter, Justin A, Yanagisawa, Makoto, Wetzstein, Hazel Y, Morgan, John A, Boutry, Marc, Schuurink, Robert C, and Dudareva, Natalia

Abstract

Plants synthesize a diversity of volatile molecules that are important for reproduction and defense, serve as practical products for humans, and influence atmospheric chemistry and climate. Despite progress in deciphering plant volatile biosynthesis, their release from the cell has been poorly understood. The default assumption has been that volatiles passively diffuse out of cells. By characterization of a Petunia hybrida adenosine triphosphate-binding cassette (ABC) transporter, PhABCG1, we demonstrate that passage of volatiles across the plasma membrane relies on active transport. PhABCG1 down-regulation by RNA interference results in decreased emission of volatiles, which accumulate to toxic levels in the plasma membrane. This study provides direct proof of a biologically mediated mechanism of volatile emission.

Published
2017

39. Novel multiscale insights into the composite nature of water transport in roots

Author

UCL - SST/ELI/ELIA - Agronomy, UCL - SST/ISV - Institut des sciences de la vie, UCL - SST/ELI/ELIE - Environmental Sciences, Couvreur, Valentin, Faget, Marc, Lobet, Guillaume, Chaumont, François, Javaux, Mathieu, Draye, Xavier, UCL - SST/ELI/ELIA - Agronomy, UCL - SST/ISV - Institut des sciences de la vie, UCL - SST/ELI/ELIE - Environmental Sciences, Couvreur, Valentin, Faget, Marc, Lobet, Guillaume, Chaumont, François, Javaux, Mathieu, and Draye, Xavier

Abstract

Novel multiscale insights into the composite nature of water transport in roots

Published
2017

40. Study of the plasma membrane proteome dynamics reveals novel targets of nitrogen regulation in yeast.

Author

UCL - SST/ISV - Institut des sciences de la vie, Villers, Jennifer, Savocco, Jérôme, Szopinska, Aleksandra, Degand, Hervé, Nootens, Sylvain, Morsomme, Pierre, UCL - SST/ISV - Institut des sciences de la vie, Villers, Jennifer, Savocco, Jérôme, Szopinska, Aleksandra, Degand, Hervé, Nootens, Sylvain, and Morsomme, Pierre

Abstract

Yeast cells, to be able to grow on a wide variety of nitrogen sources, regulate the set of nitrogen transporters present at their plasma membrane. Such regulation relies on both transcriptional and post-translational events. While microarray studies have identified most nitrogen-sensitive genes, nitrogen-induced post-translational regulation has only been studied for very few proteins among which the general amino acid permease Gap1. Adding a preferred nitrogen source to proline-grown cells triggers Gap1 endocytosis and vacuolar degradation in an Rsp5-Bul1/2-dependent manner. Here, we used a proteomic approach to follow the dynamics of the plasma membrane proteome after addition of a preferred nitrogen source. We identified new targets of the nitrogen regulation and four transporters of poor nitrogen sources - Put4, Opt2, Dal5 and Ptr2 - that rapidly decrease in abundance. Although the kinetics is different for each transporter, we found that three of them - Put4, Dal5 and Ptr2 - are endocytosed, like Gap1, in an Rsp5-dependent manner and degraded in the vacuole. Finally, we showed that Gap1 stabilization at the plasma membrane, through deletion of Bul proteins, regulates the abundance of Put4, Dal5 and Ptr2.

Published
2017

42. Antibody production in plant cell suspension cultures : searching for new host species and identification of active genomic loci

Author

UCL - SST/ISV - Institut des sciences de la vie, UCL - Ingénierie biologique, agronomique et environnementale, Boutry, Marc, Chaumont, François, Agathos, Spiros, Hallet, Bernard, Navarre, Catherine, Ritala, Anneli, Tollet, Jérémie, UCL - SST/ISV - Institut des sciences de la vie, UCL - Ingénierie biologique, agronomique et environnementale, Boutry, Marc, Chaumont, François, Agathos, Spiros, Hallet, Bernard, Navarre, Catherine, Ritala, Anneli, and Tollet, Jérémie

Abstract

Plant suspension cells are considered as an interesting platform to produce monoclonal antibodies (mAb) and other pharmacological proteins. However, to date, the expression yields obtained are still relatively low in comparison with other expression platforms. So far suspension cells from very few plant species have been used as hosts. In this study, we screened cell suspension lines derived from the 13 following dicot species for their capacity to express an antibody: Ocimum basilicum, Lavandula angustifolia, Linum usitatissimum, Mentha x piperita, Brassica rapa, Dianthus caryophyllus, Citrus x sinensis, Phytolacca acinosa, Solanum tuberosum, Malus domestica, Phytolacca americana, Helianthus annuus, and Vitis vinifera. We succeeded in setting up Agrobacterium-mediated transformation and expressing intact mAbs in suspension cells derived from two of them, L. usitatissimum (flax) and L. angustifolia (lavender). We showed that, unlike the cauliflower mosaic virus 35S promoter, the constitutive promoter of Nicotiana plumaginifolia PMA4 was not able to efficiently drive gene transcription in L. usitatissimum cells. Mass spectrometry analysis of mAbs secreted from L. angustifolia cells revealed a high proportion of N-glycosylation with plant-specific glycans. In the second part, we sought to localize highly active genomic loci for heterologous expression. We screened 1595 Nicotiana tabacum and 430 Arabidopsis thaliana transformants expressing a fluorescent protein (mCherry) to select the highest expressing cell lines. The high mCherry expression observed in the selected lines seems to result from several T-DNA insertions among which active ones will have to be identified. The genomic environment of 20 insertion events was analyzed. In the last part, we showed that culture conditions (e.g. medium composition, culture vessel) influence plant cell growth as well as mAb accumulation in the extracellular medium of a transgenic cell line., (AGRO - Sciences agronomiques et ingénierie biologique) -- UCL, 2017

Published
2017

43. Nucleation and growth of a bacterial functional amyloid at single-fiber resolution

Author

UCL - SST/ISV - Institut des sciences de la vie, Sleutel, Mike, Van den Broeck, Imke, Van Gerven, Nani, Feuillie, Cécile, Jonckheere, Wim, Valotteau, Claire, Dufrêne, Yves, Remaut, Han, UCL - SST/ISV - Institut des sciences de la vie, Sleutel, Mike, Van den Broeck, Imke, Van Gerven, Nani, Feuillie, Cécile, Jonckheere, Wim, Valotteau, Claire, Dufrêne, Yves, and Remaut, Han

Abstract

Curli are functional amyloids produced by proteobacteria like Escherichia coli as part of the extracellular matrix that holds cells together into biofilms. The molecular events that occur during curli nucleation and fiber extension remain largely unknown. Combining observations from curli amyloidogenesis in bulk solutions with real-time in situ nanoscopic imaging at the single-fiber level, we show that curli display polar growth, and we detect two kinetic regimes of fiber elongation. Single fibers exhibit stop-and-go dynamics characterized by bursts of steady-state growth alternated with periods of stagnation. At high subunit concentrations, fibers show constant, unperturbed burst growth. Curli follow a one-step nucleation process in which monomers contemporaneously fold and oligomerize into minimal fiber units that have growth characteristics identical to those of the mature fibrils. Kinetic data and interaction studies of curli fibrillation in the presence of the natural inhibitor CsgC show that the inhibitor binds curli fibers and predominantly acts at the level of fiber elongation.

Published
2017

44. Going with the flow: Novel insights into the composite nature of water flow in roots

Author

UCL - SST/ELI/ELIA - Agronomy, UCL - SST/ELI/ELIE - Environmental Sciences, UCL - SST/ISV - Institut des sciences de la vie, Couvreur, Valentin, Faget, Marc, Lobet, Guillaume, Passot, Sixtine, Javaux, Mathieu, Chaumont, François, Draye, Xavier, Crops in Silico Program Booklet, UCL - SST/ELI/ELIA - Agronomy, UCL - SST/ELI/ELIE - Environmental Sciences, UCL - SST/ISV - Institut des sciences de la vie, Couvreur, Valentin, Faget, Marc, Lobet, Guillaume, Passot, Sixtine, Javaux, Mathieu, Chaumont, François, Draye, Xavier, and Crops in Silico Program Booklet

Abstract

Context Root radial conductivity (kr) constitutes a major hydraulic resistance for water in the soil-plant-atmosphere continuum. Yet, the complex organization and regulation of sub-cellular elements such as aquaporins and plasmodesmata limit our understanding of this system.Goals Unify root hydraulic principles across scales & reinterpret experiments under the light of an explicit root hydraulic anatomy model (MECHA)

Published
2017

45. Activity of the purified plant ABC transporter NtPDR1 is stimulated by diterpenes and sesquiterpenes involved in constitutive and induced defenses.

Author

UCL - SST/ISV - Institut des sciences de la vie, Pierman, Baptiste, Toussaint, Frederic, Bertin, Aurelie, Levy, Daniel, Smargiasso, Nicolas, De Pauw, Ewin, Boutry, Marc, UCL - SST/ISV - Institut des sciences de la vie, Pierman, Baptiste, Toussaint, Frederic, Bertin, Aurelie, Levy, Daniel, Smargiasso, Nicolas, De Pauw, Ewin, and Boutry, Marc

Abstract

Within the plant ABC transporter family, pleiotropic drug resistance (PDR) transporters play essential functions, such as in hormone transport or defense against biotic and abiotic stresses. NtPDR1 from Nicotiana tabacum has been shown to be involved in the constitutive defense against pathogens through the secretion of toxic cyclic diterpenes such as the antimicrobial substrates cembrene and sclareol from the leaf hairs (trichomes). However, direct evidence of an interaction between NtPDR1 and terpenes is lacking. Here, we stably expressed NtPDR1 in N. tabacum BY-2 suspension cells. NtPDR1 was purified as an active monomer glycosylated at a single site in the third external loop. NtPDR1 reconstitution in proteoliposomes stimulated its basal ATPase activity from 21 to 38 nmol Pi.mg-1.min-1, and ATPase activity was further stimulated by the NtPDR1 substrates cembrene and sclareol, providing direct evidence of an interaction between NtPDR1 and its two substrates. Interestingly, NtPDR1 was also stimulated by capsidiol, a sesquiterpene produced by N. tabacum upon pathogen attack. We also monitored the transcriptional activity from the NtPDR1 promoter in situ with a reporter gene and found that while NtPDR1 expression was limited to trichomes under normal conditions, addition of methyl jasmonate, a biotic stress hormone, induced expression in all leaf tissues. This finding indicated that NtPDR1 is involved not only in constitutive but also in induced plant defenses. In conclusion, we provide direct evidence of an interaction between the NtPDR1 transporter and its substrates and that NtPDR1 transports compounds involved in both constitutive (diterpenes) and induced (sesquiterpenes) plant defenses.

Published
2017

46. Conditional loss of Hoxa5 function early after birth impacts on expression of genes with synaptic function.

Author

UCL - SST/ISV - Institut des sciences de la vie, Lizen, Benoît, Moens, Charlotte, Mouheiche, Jinane, Sacré, Thomas, Ahn, Marie-Thérèse, Jeannotte, Lucie, Salti, Ahmad, Gofflot, Françoise, UCL - SST/ISV - Institut des sciences de la vie, Lizen, Benoît, Moens, Charlotte, Mouheiche, Jinane, Sacré, Thomas, Ahn, Marie-Thérèse, Jeannotte, Lucie, Salti, Ahmad, and Gofflot, Françoise

Abstract

Hoxa5 is a member of the Hox gene family that plays critical roles in successive steps of the central nervous system formation during embryonic and fetal development. In the mouse, Hoxa5 was recently shown to be expressed in the medulla oblongata and the pons from fetal stages to adulthood. In these territories, Hoxa5 transcripts are enriched in many precerebellar neurons and several nuclei involved in autonomic functions, while the HOXA5 protein is detected mainly in glutamatergic and GABAergic neurons. However, whether HOXA5 is functionally required in these neurons after birth remains unknown. As a first approach to tackle this question, we aimed at determining the molecular programs downstream of the HOXA5 transcription factor in the context of the postnatal brainstem. A comparative transcriptomic analysis was performed in combination with gene expression localization, using a conditional postnatal Hoxa5 loss-of-function mouse model. After inactivation of Hoxa5 at postnatal days (P)1–P4, we established the transcriptome of the brainstem from P21 Hoxa5 conditional mutants using RNA-Seq analysis. One major finding was the downregulation of several genes associated with synaptic function in Hoxa5 mutant specimens including different actors involved in glutamatergic synapse, calcium signaling pathway, and GABAergic synapse. Data were confirmed and extended by reverse transcription quantitative polymerase chain reaction analysis, and the expression of several HOXA5 candidate targets was shown to co-localize with Hoxa5 transcripts in precerebellar nuclei. Together, these new results revealed that HOXA5, through the regulation of key actors of the glutamatergic/GABAergic synapses and calcium signaling, might be involved in synaptogenesis, synaptic transmission, and synaptic plasticity of the cortico-ponto-cerebellar circuitry in the postnatal brainstem.

Published
2017

47. Recent advances on bioactivities of black rice.

Author

UCL - SSS/LDRI - Louvain Drug Research Institute, UCL - SST/ISV - Institut des sciences de la vie, Dias, Aécio L de S, Pachikian, Barbara D., Larondelle, Yvan, Quetin-Leclercq, Joëlle, UCL - SSS/LDRI - Louvain Drug Research Institute, UCL - SST/ISV - Institut des sciences de la vie, Dias, Aécio L de S, Pachikian, Barbara D., Larondelle, Yvan, and Quetin-Leclercq, Joëlle

Abstract

Black rice has been consumed for centuries in Asian countries such as China, Korea or Japan. Nowadays, extracts and derivatives are considered as beneficial functional foods because of their high content in several bioactive molecules such as anthocyanins, other phenolics and terpenoids. The purpose of this review is to summarize and discuss recent developments on black rice bioactivities. Some sterols and triterpenoids with potential anticancer properties already tested in vitro and in vivo have been isolated and identified from bran extracts of black rice. Protection against osteoporosis has been suggested for the first time for black rice extracts. Because of its antioxidant and anti-inflammatory properties, black rice also protects liver and kidney from injuries. One clinical study reported the interest of black rice in case of alcohol withdrawal. Several advances have been recently achieved on the understanding of the potential biological effects of black rice and its derivatives. They further confirm that black rice should be considered as a promising source of health-promoting functional foods targeting a large set of noninfectious diseases. However, more clinical studies are needed to support the findings highlighted in this review.

Published
2017

48. Peroxisomes as modulators of cellular protein thiol oxidation: a new model system.

Author

UCL - SST/ISV - Institut des sciences de la vie, Lismont Celien, Nordgren Marcus, Brees Chantal, Knoops, Bernard, Van Veldhoven Paul P., Fransen Marc, UCL - SST/ISV - Institut des sciences de la vie, Lismont Celien, Nordgren Marcus, Brees Chantal, Knoops, Bernard, Van Veldhoven Paul P., and Fransen Marc

Abstract

Aims: Peroxisomes are ubiquitous, single-membrane-bounded organelles that contain considerable amounts of enzymes involved in the production or breakdown of hydrogen peroxide (H2O2), a key signaling molecule in multiple biological processes and disease states. Despite this, the role of this organelle in cross-compartmental H2O2 signaling remains largely unclear, mainly because of the difficulty to modulate peroxisomal H2O2 production in a selective manner. This study aimed at establishing and validating a cellular model suitable to decipher the complex signaling processes associated with peroxisomal H2O2 release. Results: Here, we report the development of a human cell line that can be used to selectively generate H2O2 inside peroxisomes in a time- and dose-controlled manner. In addition, we provide evidence that peroxisomederived H2O2 can oxidize redox-sensitive cysteine residues in multiple proteins within (e.g., peroxiredoxin-5 [PRDX5]) and outside (e.g., nuclear factor kappa B subunit 1 [NFKB1] and subunit RELA proto-oncogene [RELA], phosphatase and tensin homolog [PTEN], forkhead box O3 [FOXO3], and peroxin 5 [PEX5]) the peroxisomal compartment. Furthermore, we show that the extent of protein oxidation depends on the subcellular location of the target protein and is inversely correlated to catalase activity and cellular glutathione content. Finally, we demonstrate that excessive H2O2 production inside peroxisomes does not induce their selective degradation, at least not under the conditions examined. Innovation: This study describes for the first time a powerful model system that can be used to examine the role of peroxisome-derived H2O2 in redox-regulated (patho)physiological processes, a research area in need of further investigation and innovative approaches. Conclusion: Our results provide unambiguous evidence that peroxisomes can serve as regulatory hubs in thiolbased signaling networks.

Published
2017

49. Combining confocal and atomic force microscopy to quantify single-virus binding to mammalian cell surfaces

Author

UCL - SST/ISV - Institut des sciences de la vie, Newton, Richard, Delguste, Martin, Koehler, Melanie, Dumitru, Andra C, Laskowski, Pawel R, Müller, Daniel J, Alsteens, David, UCL - SST/ISV - Institut des sciences de la vie, Newton, Richard, Delguste, Martin, Koehler, Melanie, Dumitru, Andra C, Laskowski, Pawel R, Müller, Daniel J, and Alsteens, David

Abstract

Over the past five years, atomic force microscopy (AFM)-based approaches have evolved into a powerful multiparametric tool set capable of imaging the surfaces of biological samples ranging from single receptors to membranes and tissues. One of these approaches, force–distance curve-based AFM (FD-based AFM), uses a probing tip functionalized with a ligand to image living cells at high-resolution and simultaneously localize and characterize specific ligand–receptor binding events. Analyzing data from FD-based AFM experiments using appropriate probabilistic models allows quantification of the kinetic and thermodynamic parameters that describe the free-energy landscape of the ligand–receptor bond. We have recently developed an FD-based AFM approach to quantify the binding events of single enveloped viruses to surface receptors of living animal cells while simultaneously observing them by fluorescence microscopy. This approach has provided insights into the early stages of the interaction between a virus and a cell. Applied to a model virus, we probed the specific interaction with cells expressing viral cognate receptors and measured the affinity of the interaction. Furthermore, we observed that the virus rapidly established specific multivalent interactions and found that each bond formed in sequence strengthened the attachment of the virus to the cell. Here we describe detailed procedures for probing the specific interactions of viruses with living cells; these procedures cover tip preparation, cell sample preparation, step-by-step FD-based AFM imaging and data analysis. Experienced microscopists should be able to master the entire set of protocols in 1 month.

Published
2017

50. Understanding and exploiting autophagy signaling in plants

Author

UCL - SST/ISV - Institut des sciences de la vie, Batoko, Henri, Dagdas, Yasin, Baluska, Frantisek, Sirko, Agnieszka, UCL - SST/ISV - Institut des sciences de la vie, Batoko, Henri, Dagdas, Yasin, Baluska, Frantisek, and Sirko, Agnieszka

Abstract

Autophagy is an essential catabolic pathway and is activated by various endogenous and exogenous stimuli. In particular, autophagy is required to allow sessile organisms such as plants to cope with biotic or abiotic stress conditions. It is thought that these various environmental signaling pathways are somehow integrated with autophagy signaling. However, the molecular mechanisms of plant autophagy signaling are not well understood, leaving a big gap of knowledge as a barrier to being able to manipulate this important pathway to improve plant growth and development. In this review, we discuss possible regulatory mechanisms at the core of plant autophagy signaling.

Published
2017

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