Your search keyword '"Edwin De Pauw"' showing total 408 results

1. Correction: Methylglyoxal, a glycolysis side-product, induces Hsp90 glycation and YAP-mediated tumor growth and metastasis

Author

Marie-Julie Nokin, Florence Durieux, Paul Peixoto, Barbara Chiavarina, Olivier Peulen, Arnaud Blomme, Andrei Turtoi, Brunella Costanza, Nicolas Smargiasso, Dominique Baiwir, Jean L Scheijen, Casper G Schalkwijk, Justine Leenders, Pascal De Tullio, Elettra Bianchi, Marc Thiry, Koji Uchida, David A Spiegel, James R Cochrane, Craig A Hutton, Edwin De Pauw, Philippe Delvenne, Dominique Belpomme, Vincent Castronovo, and Akeila Bellahcène

Subjects

Medicine, Science, Biology (General), QH301-705.5

Published

2024

2. Macrophage-infectivity potentiator of Trypanosoma cruzi (TcMIP) is a new pro-type 1 immuno-stimulating protein for neonatal human cells and vaccines in mice

Author

Magdalena Radwanska, Frédéric de Lemos Esteves, Loes Linsen, Nicolas Coltel, Sabrina Cencig, Joelle Widart, Anne-Cécile Massart, Séverine Colson, Alexandre Di Paolo, Pauline Percier, Sarra Ait Djebbara, François Guillonneau, Véronique Flamand, Edwin De Pauw, Jean-Marie Frère, Yves Carlier, and Carine Truyens

Subjects

neonatal immunity, adjuvant, cord blood, type 1 immune response, gamma-interferon, macrophage infectivity potentiator, Immunologic diseases. Allergy, RC581-607

Abstract

This work identifies the protein “macrophage infectivity potentiator” of Trypanosoma cruzi trypomastigotes, as supporting a new property, namely a pro-type 1 immunostimulatory activity on neonatal cells. In its recombinant form (rTcMIP), this protein triggers the secretion of the chemokines CCL2 and CCL3 by human umbilical cord blood cells from healthy newborns, after 24h in vitro culture. Further stimulation for 72h results in secretion of IFN-γ, provided cultures are supplemented with IL-2 and IL-18. rTcMIP activity is totally abolished by protease treatment and is not associated with its peptidyl-prolyl cis-trans isomerase enzymatic activity. The ability of rTcMIP to act as adjuvant was studied in vivo in neonatal mouse immunization models, using acellular diphtheria-tetanus-pertussis-vaccine (DTPa) or ovalbumin, and compared to the classical alum adjuvant. As compared to the latter, rTcMIP increases the IgG antibody response towards several antigens meanwhile skewing antibody production towards the Th-1 dependent IgG2a isotype. The amplitude of the rTcMIP adjuvant effect varied depending on the antigen and the co-presence of alum. rTcMIP did by contrast not increase the IgE response to OVA combined with alum. The discovery of the rTcMIP immunostimulatory effect on neonatal cells opens new possibilities for potential use as pro-type 1 adjuvant for neonatal vaccines. This, in turn, may facilitate the development of more efficient vaccines that can be given at birth, reducing infection associated morbidity and mortality which are the highest in the first weeks after birth.

Published

2023

3. Versatile role of Pseudomonas fuscovaginae cyclic lipopeptides in plant and microbial interactions

Author

Enrico Ferrarini, Mihael Špacapan, Van Bach Lam, Andrea McCann, Catherine Cesa-Luna, Bishnu Prasad Marahatta, Edwin De Pauw, René De Mot, Vittorio Venturi, and Monica Höfte

Subjects

bacterial sheath brown rot, fuscopeptin, syringotoxin, asplenin, cyclic lipopeptides, rice, Plant culture, SB1-1110

Abstract

Pseudomonas fuscovaginae is the most prominent bacterial sheath rot pathogen, causing sheath brown rot disease in rice. This disease occurs worldwide and it is characterized by typical necrotic lesions on the sheath, as well as a reduction in the number of emitted panicles and filled grains. P. fuscovaginae has been shown to produce syringotoxin and fuscopeptin cyclic lipopeptides (CLPs), which have been linked to pathogenicity. In this study, we investigated the role of P. fuscovaginae UPB0736 CLPs in plant pathogenicity, antifungal activity and swarming motility. To do so, we sequenced the strain to obtain a single-contig genome and we constructed deletion mutants in the biosynthetic gene clusters responsible for the synthesis of CLPs. We show that UPB0736 produces a third CLP of 13 amino acids, now named asplenin, and we link this CLP with the swarming activity of the strain. We could then show that syringotoxin is particularly active against Rhizoctonia solani in vitro. By testing the mutants in planta we investigated the role of both fuscopeptin and syringotoxin in causing sheath rot lesions. We proved that the presence of these two CLPs considerably affected the number of emitted panicles, although their number was still significantly affected in the mutants deficient in both fuscopeptin and syringotoxin. These results reveal the importance of CLPs in P. fuscovaginae pathogenicity, but also suggest that other pathogenicity factors may be involved.

Published

2022

4. Grapevine leaf MALDI-MS imaging reveals the localisation of a putatively identified sucrose metabolite associated to Plasmopara viticola development

Author

Marisa Maia, Andréa McCann, Cédric Malherbe, Johann Far, Jorge Cunha, José Eiras-Dias, Carlos Cordeiro, Gauthier Eppe, Loïc Quinton, Andreia Figueiredo, Edwin De Pauw, and Marta Sousa Silva

Subjects

Vitis vinifera, metabolomics, pathogen response, sucrose metabolism, mass spectrometry imaging, Plant culture, SB1-1110

Abstract

Despite well-established pathways and metabolites involved in grapevine-Plasmopara viticola interaction, information on the molecules involved in the first moments of pathogen contact with the leaf surface and their specific location is still missing. To understand and localise these molecules, we analysed grapevine leaf discs infected with P. viticola with MSI. Plant material preparation was optimised, and different matrices and solvents were tested. Our data shows that trichomes hamper matrix deposition and the ion signal. Results show that putatively identified sucrose presents a higher accumulation and a non-homogeneous distribution in the infected leaf discs in comparison with the controls. This accumulation was mainly on the veins, leading to the hypothesis that sucrose metabolism is being manipulated by the development structures of P. viticola. Up to our knowledge this is the first time that the localisation of a putatively identified sucrose metabolite was shown to be associated to P. viticola infection sites.

Published

2022

5. Surfactin Stimulated by Pectin Molecular Patterns and Root Exudates Acts as a Key Driver of the Bacillus-Plant Mutualistic Interaction

Author

Grégory Hoff, Anthony Arguelles Arias, Farah Boubsi, Jelena Pršić, Thibault Meyer, Heba M. M. Ibrahim, Sébastien Steels, Patricio Luzuriaga, Aurélien Legras, Laurent Franzil, Michelle Lequart-Pillon, Catherine Rayon, Victoria Osorio, Edwin de Pauw, Yannick Lara, Estelle Deboever, Barbara de Coninck, Philippe Jacques, Magali Deleu, Emmanuel Petit, Olivier Van Wuytswinkel, and Marc Ongena

Subjects

lipopeptides, plant cell wall polymers, plant immunity, molecular crosstalk, plant-microbe interactions, Microbiology, QR1-502

Abstract

ABSTRACT Bacillus velezensis is considered as a model species belonging to the so-called Bacillus subtilis complex that evolved typically to dwell in the soil rhizosphere niche and establish an intimate association with plant roots. This bacterium provides protection to its natural host against diseases and represents one of the most promising biocontrol agents. However, the molecular basis of the cross talk that this bacterium establishes with its natural host has been poorly investigated. We show here that these plant-associated bacteria have evolved a polymer-sensing system to perceive their host and that, in response, they increase the production of the surfactin-type lipopeptide. Furthermore, we demonstrate that surfactin synthesis is favored upon growth on root exudates and that this lipopeptide is a key component used by the bacterium to optimize biofilm formation, motility, and early root colonization. In this specific nutritional context, the bacterium also modulates qualitatively the pattern of surfactin homologues coproduced in planta and forms mainly variants that are the most active at triggering plant immunity. Surfactin represents a shared good as it reinforces the defensive capacity of the host. IMPORTANCE Within the plant-associated microbiome, some bacterial species are of particular interest due to the disease protective effect they provide via direct pathogen suppression and/or stimulation of host immunity. While these biocontrol mechanisms are quite well characterized, we still poorly understand the molecular basis of the cross talk these beneficial bacteria initiate with their host. Here, we show that the model species Bacillus velezensis stimulates the production of the surfactin lipopeptide upon sensing pectin as a cell surface molecular pattern and upon feeding on root exudates. Surfactin favors bacterial rhizosphere fitness on one hand and primes the plant immune system on the other hand. Our data therefore illustrate how both partners use this multifunctional compound as a unique shared good to sustain a mutualistic interaction.

Published

2021

6. Lipopeptide Interplay Mediates Molecular Interactions between Soil Bacilli and Pseudomonads

Author

Sofija Andrić, Thibault Meyer, Augustin Rigolet, Claire Prigent-Combaret, Monica Höfte, Guillaume Balleux, Sébastien Steels, Grégory Hoff, René De Mot, Andrea McCann, Edwin De Pauw, Anthony Argüelles Arias, and Marc Ongena

Subjects

Bacillus velezensis, molecular cross-talk, Pseudomonas, bioactive secondary metabolites, cyclic lipopeptides, microbial ecology, Microbiology, QR1-502

Abstract

ABSTRACT Some Bacillus species, such as B. velezensis, are important members of the plant-associated microbiome, conferring protection against phytopathogens. However, our knowledge about multitrophic interactions determining the ecological fitness of these biocontrol bacteria in the competitive rhizosphere niche is still limited. Here, we investigated molecular mechanisms underlying interactions between B. velezensis and Pseudomonas as a soil-dwelling competitor. Upon their contact-independent in vitro confrontation, a multifaceted macroscopic outcome was observed and characterized by Bacillus growth inhibition, white line formation in the interaction zone, and enhanced motility. We correlated these phenotypes with the production of bioactive secondary metabolites and identified specific lipopeptides as key compounds involved in the interference interaction and motile response. Bacillus mobilizes its lipopeptide surfactin not only to enhance motility but also to act as a chemical trap to reduce the toxicity of lipopeptides formed by Pseudomonas. We demonstrated the relevance of these unsuspected roles of lipopeptides in the context of competitive tomato root colonization by the two bacterial genera. IMPORTANCE Plant-associated Bacillus velezensis and Pseudomonas spp. represent excellent model species as strong producers of bioactive metabolites involved in phytopathogen inhibition and the elicitation of plant immunity. However, the ecological role of these metabolites during microbial interspecies interactions and the way their expression may be modulated under naturally competitive soil conditions has been poorly investigated. Through this work, we report various phenotypic outcomes from the interactions between B. velezensis and 10 Pseudomonas strains used as competitors and correlate them with the production of specific metabolites called lipopeptides from both species. More precisely, Bacillus overproduces surfactin to enhance motility, which also, by acting as a chemical trap, reduces the toxicity of other lipopeptides formed by Pseudomonas. Based on data from interspecies competition on plant roots, we assume this would allow Bacillus to gain fitness and persistence in its natural rhizosphere niche. The discovery of new ecological functions for Bacillus and Pseudomonas secondary metabolites is crucial to rationally design compatible consortia, more efficient than single-species inoculants, to promote plant health and growth by fighting economically important pathogens in sustainable agriculture.

Published

2021

7. Inactivation of N-Acetylglucosaminyltransferase I and α1,3-Fucosyltransferase Genes in Nicotiana tabacum BY-2 Cells Results in Glycoproteins With Highly Homogeneous, High-Mannose N-Glycans

Author

Xavier Herman, Johann Far, Adeline Courtoy, Laurent Bouhon, Loïc Quinton, Edwin De Pauw, François Chaumont, and Catherine Navarre

Subjects

glyco-engineering, plant suspension cells, oligomannose N-glycans, CRISPR/Cas9, molecular farming, N-acetylglucosaminyltransferase I, Plant culture, SB1-1110

Abstract

Nicotiana tabacum Bright Yellow-2 (BY-2) suspension cells are among the most commonly used plant cell lines for producing biopharmaceutical glycoproteins. Recombinant glycoproteins are usually produced with a mix of high-mannose and complex N-glycans. However, N-glycan heterogeneity is a concern for the production of therapeutic or vaccine glycoproteins because it can alter protein activity and might lead to batch-to-batch variability. In this report, a BY-2 cell line producing glycoproteins devoid of complex N-glycans was obtained using CRISPR/Cas9 edition of two N-acetylglucosaminyltransferase I (GnTI) genes, whose activity is a prerequisite for the formation of all complex N-glycans. The suppression of complex N-glycans in the GnTI-knocked out (KO) cell lines was assessed by Western blotting. Lack of β1,2-xylose residues confirmed the abolition of GnTI activity. Unexpectedly, α1,3-fucose residues were still detected albeit dramatically reduced as compared with wild-type cells. To suppress the remaining α1,3-fucose residues, a second genome editing targeted both GnTI and α1,3-fucosyltransferase (FucT) genes. No β1,2-xylose nor α1,3-fucose residues were detected on the glycoproteins produced by the GnTI/FucT-KO cell lines. Absence of complex N-glycans on secreted glycoproteins of GnTI-KO and GnTI/FucT-KO cell lines was confirmed by mass spectrometry. Both cell lines produced high-mannose N-glycans, mainly Man5 (80 and 86%, respectively) and Man4 (16 and 11%, respectively). The high degree of N-glycan homogeneity and the high-mannose N-glycosylation profile of these BY-2 cell lines is an asset for their use as expression platforms.

Published

2021

8. A Single Biosynthetic Gene Cluster Is Responsible for the Production of Bagremycin Antibiotics and Ferroverdin Iron Chelators

Author

Loïc Martinet, Aymeric Naômé, Benoit Deflandre, Marta Maciejewska, Déborah Tellatin, Elodie Tenconi, Nicolas Smargiasso, Edwin de Pauw, Gilles P. van Wezel, and Sébastien Rigali

Subjects

Streptomyces, genome analysis, iron regulation, natural antimicrobial products, secondary metabolism, Microbiology, QR1-502

Abstract

ABSTRACT Biosynthetic gene clusters (BGCs) are organized groups of genes involved in the production of specialized metabolites. Typically, one BGC is responsible for the production of one or several similar compounds with bioactivities that usually only vary in terms of strength and/or specificity. Here we show that the previously described ferroverdins and bagremycins, which are families of metabolites with different bioactivities, are produced from the same BGC, whereby the fate of the biosynthetic pathway depends on iron availability. Under conditions of iron depletion, the monomeric bagremycins are formed, representing amino-aromatic antibiotics resulting from the condensation of 3-amino-4-hydroxybenzoic acid with p-vinylphenol. Conversely, when iron is abundantly available, the biosynthetic pathway additionally produces a molecule based on p-vinylphenyl-3-nitroso-4-hydroxybenzoate, which complexes iron to form the trimeric ferroverdins that have anticholesterol activity. Thus, our work shows a unique exception to the concept that BGCs should only produce a single family of molecules with one type of bioactivity and that in fact different bioactive molecules may be produced depending on the environmental conditions. IMPORTANCE Access to whole-genome sequences has exposed the general incidence of the so-called cryptic biosynthetic gene clusters (BGCs), thereby renewing their interest for natural product discovery. As a consequence, genome mining is the often first approach implemented to assess the potential of a microorganism for producing novel bioactive metabolites. By revealing a new level of complexity of natural product biosynthesis, we further illustrate the difficulty of estimation of the panel of molecules associated with a BGC based on genomic information alone. Indeed, we found that the same gene cluster is responsible for the production of compounds which differ in terms of structure and bioactivity. The production of these different compounds responds to different environmental triggers, which suggests that multiplication of culture conditions is essential for revealing the entire panel of molecules made by a single BGC.

Published

2019

9. Proteome of fraction from Tityus serrulatus venom reveals new enzymes and toxins

Author

Fernanda Gobbi Amorim, Heloisa Tavoni Longhim, Camila Takeno Cologna, Michel Degueldre, Edwin De Pauw, Loïc Quinton, and Eliane Candiani Arantes

Subjects

Tityus serrulatus, scorpion venom, enzymes, proteases, ACE inhibitors, proteome, Arctic medicine. Tropical medicine, RC955-962, Toxicology. Poisons, RA1190-1270, Zoology, QL1-991

Abstract

Abstract Background: Tityus serrulatus venom (Ts venom) is a complex mixture of several compounds with biotechnological and therapeutical potentials, which highlights the importance of the identification and characterization of these components. Although a considerable number of studies have been dedicated to the characterization of this complex cocktail, there is still a limitation of knowledge concerning its venom composition. Most of Ts venom studies aim to isolate and characterize their neurotoxins, which are small, basic proteins and are eluted with high buffer concentrations on cation exchange chromatography. The first and largest fraction from carboxymethyl cellulose-52 (CMC-52) chromatography of Ts venom, named fraction I (Fr I), is a mixture of proteins of high and low molecular masses, which do not interact with the cation exchange resin, being therefore a probable source of components still unknown of this venom. Thus, the present study aimed to perform the proteome study of Fraction I from Ts venom, by high resolution mass spectrometry, and its biochemical characterization, by the determination of several enzymatic activities. Methods: Fraction I was obtained by a cation exchange chromatography using 50 mg of crude venom. This fraction was subjected to a biochemical characterization, including determination of L-amino acid oxidase, phospholipase, hyaluronidase, proteases activities and inhibition of angiotensin converting enzyme (ACE) activity. Fraction I was submitted to reduction, alkylation and digestion processes, and the tryptic digested peptides obtained were analyzed in a Q-Exactive Orbitrap mass spectrometer. Data analysis was performed by PEAKS 8.5 software against NCBI database. Results: Fraction I exhibits proteolytic activity and it was able to inhibit ACE activity. Its proteome analysis identified 8 different classes of venom components, among them: neurotoxins (48%), metalloproteinases (21%), hypotensive peptides (11%), cysteine-rich venom protein (9%), antimicrobial peptides (AMP), phospholipases and other enzymes (chymotrypsin and lysozymes) (3%) and phosphodiesterases (2%). Conclusions: The combination of a proteomic and biochemical characterization strategies leads us to identify new components in the T. serrulatus scorpion venom. The proteome of venom´s fraction can provide valuable direction in the obtainment of components in their native forms in order to perform a preliminary characterization and, consequently, to promote advances in biological discoveries in toxinology.

Published

2019

10. On the Risks of Phylogeny-Based Strain Prioritization for Drug Discovery: Streptomyces lunaelactis as a Case Study

Author

Loïc Martinet, Aymeric Naômé, Dominique Baiwir, Edwin De Pauw, Gabriel Mazzucchelli, and Sébastien Rigali

Subjects

strain prioritization, metabolomics, chemical diversity, natural product, drug discovery, genome mining, Microbiology, QR1-502

Abstract

Strain prioritization for drug discovery aims at excluding redundant strains of a collection in order to limit the repetitive identification of the same molecules. In this work, we wanted to estimate what can be unexploited in terms of the amount, diversity, and novelty of compounds if the search is focused on only one single representative strain of a species, taking Streptomyces lunaelactis as a model. For this purpose, we selected 18 S. lunaelactis strains taxonomically clustered with the archetype strain S. lunaelactis MM109T. Genome mining of all S. lunaelactis isolated from the same cave revealed that 54% of the 42 biosynthetic gene clusters (BGCs) are strain specific, and five BGCs are not present in the reference strain MM109T. In addition, even when a BGC is conserved in all strains such as the bag/fev cluster involved in bagremycin and ferroverdin production, the compounds produced highly differ between the strains and previously unreported compounds are not produced by the archetype MM109T. Moreover, metabolomic pattern analysis uncovered important profile heterogeneity, confirming that identical BGC predisposition between two strains does not automatically imply chemical uniformity. In conclusion, trying to avoid strain redundancy based on phylogeny and genome mining information alone can compromise the discovery of new natural products and might prevent the exploitation of the best naturally engineered producers of specific molecules.

Published

2020

11. Human Liver-Derived Extracellular Matrix for the Culture of Distinct Human Primary Liver Cells

Author

Niki Alevra Sarika, Valéry L. Payen, Maximilien Fléron, Joachim Ravau, Davide Brusa, Mustapha Najimi, Edwin De Pauw, Gauthier Eppe, Gabriel Mazzucchelli, Etienne M. Sokal, Anne des Rieux, and Adil El Taghdouini

Subjects

liver, primary cells, extracellular matrix, decellularization, proteomics, Cytology, QH573-671

Abstract

The lack of robust methods to preserve, purify and in vitro maintain the phenotype of the human liver’s highly specialized parenchymal and non-parenchymal cell types importantly hampers their exploitation for the development of research and clinical applications. There is in this regard a growing interest in the use of tissue-specific extracellular matrix (ECM) to provide cells with an in vitro environment that more closely resembles that of the native tissue. In the present study, we have developed a method that allows for the isolation and downstream application of the human liver’s main cell types from cryopreserved material. We also isolated and solubilized human liver ECM (HL-ECM), analyzed its peptidomic and proteomic composition by mass spectrometry and evaluated its interest for the culture of distinct primary human liver cells. Our analysis of the HL-ECM revealed proteomic diversity, type 1 collagen abundance and partial loss of integrity following solubilization. Solubilized HL-ECM was evaluated either as a coating or as a medium supplement for the culture of human primary hepatocytes, hepatic stellate cells and liver sinusoidal endothelial cells. Whereas the solubilized HL-ECM was suitable for cell culture, its impact on the phenotype and/or functionality of the human liver cells was limited. Our study provides a first detailed characterization of solubilized HL-ECM and a first report of its influence on the culture of distinct human primary liver cells.

Published

2020

12. Peptidomic investigation of Neoponera villosa venom by high-resolution mass spectrometry: seasonal and nesting habitat variations

Author

Camila Takeno Cologna, Renata Santos Rodrigues, Jean Santos, Edwin de Pauw, Eliane Candiani Arantes, and Loïc Quinton

Subjects

Ant venom, Peptidomics, Ponericins, Venom comparison, Antimicrobial peptides, Arctic medicine. Tropical medicine, RC955-962, Toxicology. Poisons, RA1190-1270, Zoology, QL1-991

Abstract

Abstract Background: Advancements in proteomics, including the technological improvement in instrumentation, have turned mass spectrometry into an indispensable tool in the study of venoms and toxins. In addition, the advance of nanoscale liquid chromatography coupled to nanoelectrospray mass spectrometry allows, due to its high sensitivity, the study of venoms from species previously left aside, such as ants. Ant venoms are a complex mixture of compounds used for defense, predation or communication purposes. The venom from Neoponera ants, a genus restricted to Neotropical regions, is known to have cytolytic, hemolytic, antimicrobial and insecticidal activities. Moreover, venoms from several Neoponera species have been compared and differences in their toxicity related to nesting habitat variation were reported. Therefore, the present study aimed to perform a deep peptidomic analysis of Neoponera villosa venom and a comparison of seasonal and nesting habitat variations using high-resolution mass spectrometry. Methods: Specimens of N. villosa ants were captured in Panga Natural Reserve (Uberlândia, MG, Brazil) from arboreal and ground-dwelling nests during summer and winter time. The venom glands were dissected, pooled and disrupted by ultra-sonic waves. The venom collected from different habitats (arboreal and ground-dwelling) and different seasons (summer and winter) was injected into a nanoACQUITY ULPC hyphened to a Q-Exactive Orbitrap mass spectrometer. The raw data were analyzed using PEAKS 7. Results: The results showed a molecular diversity of more than 500 peptides among these venoms, mostly in the mass range of 800–4000 Da. Mutations and post-translational modifications were described and differences among the venoms were observed. Part of the peptides matched with ponericins, a well-known antimicrobial peptide family. In addition, smaller fragments related to ponericins were also identified, suggesting that this class of antimicrobial peptide might undergo enzymatic cleavages. Conclusion: There are substantial differences among the venom of N. villosa ants collected in different seasons and from different nest habitats. The venom composition is affected by climate changes that influence prey availability and predator presence. Clearly, nano-LC-MS boosted the knowledge about ant venom, a rich source of unexplored and promising bioactive compounds.

Published

2018

13. MALDI-TOF MS Analysis of Cellodextrins and Xylo-oligosaccharides Produced by Hindgut Homogenates of Reticulitermes santonensis

Author

Catherine Brasseur, Julien Bauwens, Cédric Tarayre, Christel Mattéotti, Philippe Thonart, Jacqueline Destain, Frédéric Francis, Eric Haubruge, Daniel Portetelle, Micheline Vandenbol, Jean-François Focant, and Edwin De Pauw

Subjects

xylo-oligosaccharides, cellodextrins, termites, MALDI-TOF MS, Trichoderma reesei, Organic chemistry, QD241-441

Abstract

Hindgut homogenates of the termite Reticulitermes santonensis were incubated with carboxymethyl cellulose (CMC), crystalline celluloses or xylan substrates. Hydrolysates were analyzed with matrix-assisted laser desorption/ionization coupled to time-of-flight mass spectrometry (MALDI-TOF MS). The method was first set up using acid hydrolysis analysis to characterize non-enzymatic profiles. Commercial enzymes of Trichoderma reesei or T. longibrachiatum were also tested to validate the enzymatic hydrolysis analysis. For CMC hydrolysis, data processing and visual display were optimized to obtain comprehensive profiles and allow rapid comparison and evaluation of enzymatic selectivity, according to the number of substituents of each hydrolysis product. Oligosaccharides with degrees of polymerization (DPs) ranging from three to 12 were measured from CMC and the enzymatic selectivity was demonstrated. Neutral and acidic xylo-oligosaccharides with DPs ranging from three to 11 were measured from xylan substrate. These results are of interest for lignocellulose biomass valorization and demonstrated the potential of termites and their symbiotic microbiota as a source of interesting enzymes for oligosaccharides production.

Published

2014

14. Methylglyoxal, a glycolysis side-product, induces Hsp90 glycation and YAP-mediated tumor growth and metastasis

Author

Marie-Julie Nokin, Florence Durieux, Paul Peixoto, Barbara Chiavarina, Olivier Peulen, Arnaud Blomme, Andrei Turtoi, Brunella Costanza, Nicolas Smargiasso, Dominique Baiwir, Jean L Scheijen, Casper G Schalkwijk, Justine Leenders, Pascal De Tullio, Elettra Bianchi, Marc Thiry, Koji Uchida, David A Spiegel, James R Cochrane, Craig A Hutton, Edwin De Pauw, Philippe Delvenne, Dominique Belpomme, Vincent Castronovo, and Akeila Bellahcène

Subjects

carbonyl stress, glyoxalase 1, LATS1, breast cancer, methylglyoxal, YAP, Medicine, Science, Biology (General), QH301-705.5

Abstract

Metabolic reprogramming toward aerobic glycolysis unavoidably induces methylglyoxal (MG) formation in cancer cells. MG mediates the glycation of proteins to form advanced glycation end products (AGEs). We have recently demonstrated that MG-induced AGEs are a common feature of breast cancer. Little is known regarding the impact of MG-mediated carbonyl stress on tumor progression. Breast tumors with MG stress presented with high nuclear YAP, a key transcriptional co-activator regulating tumor growth and invasion. Elevated MG levels resulted in sustained YAP nuclear localization/activity that could be reverted using Carnosine, a scavenger for MG. MG treatment affected Hsp90 chaperone activity and decreased its binding to LATS1, a key kinase of the Hippo pathway. Cancer cells with high MG stress showed enhanced growth and metastatic potential in vivo. These findings reinforce the cumulative evidence pointing to hyperglycemia as a risk factor for cancer incidence and bring renewed interest in MG scavengers for cancer treatment.

Published

2016

15. A Phenotypic and Genotypic Analysis of the Antimicrobial Potential of Cultivable Streptomyces isolated from Cave Moonmilk Deposits

Author

Marta Maciejewska, Delphine Adam, Loïc Martinet, Aymeric Naômé, Magdalena Calusinska, Nicolas Smargiasso, Edwin De Pauw, Hazel Barton, Monique Carnol, Marc Hanikenne, Marie-Pierre Hayette, Philippe Delpfosse, Denis Baurain, and Sébastien Rigali

Subjects

genome mining, Geomicrobiology, secondary metabolism, MLSA phylogeny, cryptic antibiotics, Microbiology, QR1-502

Abstract

Moonmilk speleothems of limestone caves host a rich microbiome, among which Actinobacteria represent one of the most abundant phyla. Ancient medical texts reported that moonmilk had therapeutical properties, thereby suggesting that its filamentous endemic actinobacterial population might be a source of natural products useful in human treatment. In this work, a screening approach was undertaken in order to isolate cultivable Actinobacteria from moonmilk of the Grotte des Collemboles in Belgium, to evaluate their taxonomic profile, and to assess their potential in biosynthesis of antimicrobials. Phylogenetic analysis revealed that all 78 isolates were exclusively affiliated to the genus Streptomyces and clustered into 31 distinct phylotypes displaying various pigmentation patterns and morphological features. Phylotype representatives were tested for antibacterial and antifungal activities and their genomes were mined for secondary metabolite biosynthetic genes coding for non-ribosomal peptide synthetases (NRPS), and polyketide synthases (PKS). The moonmilk Streptomyces collection was found to display strong inhibitory activities against a wide range of reference organisms, as 94%, 71%, and 94% of the isolates inhibited or impaired the growth of Gram-positive, Gram-negative bacteria, and fungi, respectively. Interestingly, 90% of the cave strains induced strong growth suppression against the multi-drug resistant Rasamsonia argillacea, a causative agent of invasive mycosis in cystic fibrosis and chronic granulomatous diseases. No correlation was observed between the global antimicrobial activity of an individual strain and the number of NRPS and PKS genes predicted in its genome, suggesting that approaches for awakening cryptic metabolites biosynthesis should be applied to isolates with no antimicrobial phenotype. Overall, our work supports the common belief that moonmilk might effectively treat various infectious diseases thanks to the presence of a highly diverse population of prolific antimicrobial producing Streptomyces, and thus may indeed constitute a promising reservoir of potentially novel active natural compounds.

Published

2016

16. New Insights on Moojase, a Thrombin-Like Serine Protease from Bothrops moojeni Snake Venom

Author

Fernanda G. Amorim, Danilo L. Menaldo, Sante E. I. Carone, Thiago A. Silva, Marco A. Sartim, Edwin De Pauw, Loic Quinton, and Suely V. Sampaio

Subjects

snake venom, Bothrops moojeni, serine protease, thrombin-like enzyme, coagulation, fibrinogen, Medicine

Abstract

Snake venom serine proteases (SVSPs) are enzymes that are capable of interfering in various parts of the blood coagulation cascade, which makes them interesting candidates for the development of new therapeutic drugs. Herein, we isolated and characterized Moojase, a potent coagulant enzyme from Bothrops moojeni snake venom. The toxin was isolated from the crude venom using a two-step chromatographic procedure. Moojase is a glycoprotein with N-linked glycans, molecular mass of 30.3 kDa and acidic character (pI 5.80⁻6.88). Sequencing of Moojase indicated that it is an isoform of Batroxobin. Moojase was able to clot platelet-poor plasma and fibrinogen solutions in a dose-dependent manner, indicating thrombin-like properties. Moojase also rapidly induced the proteolysis of the Aα chains of human fibrinogen, followed by the degradation of the Bβ chains after extended periods of incubation, and these effects were inhibited by PMSF, SDS and DTT, but not by benzamidine or EDTA. RP-HPLC analysis of its fibrinogenolysis confirmed the main generation of fibrinopeptide A. Moojase also induced the fibrinolysis of fibrin clots formed in vitro, and the aggregation of washed platelets, as well as significant amidolytic activity on substrates for thrombin, plasma kallikrein, factor Xia, and factor XIIa. Furthermore, thermofluor analyses and the esterase activity of Moojase demonstrated its very high stability at different pH buffers and temperatures. Thus, studies such as this for Moojase should increase knowledge on SVSPs, allowing their bioprospection as valuable prototypes in the development of new drugs, or as biotechnological tools.

Published

2018

17. Proteopeptidomic, Functional and Immunoreactivity Characterization of Bothrops moojeni Snake Venom: Influence of Snake Gender on Venom Composition

Author

Fernanda Gobbi Amorim, Tassia Rafaela Costa, Dominique Baiwir, Edwin De Pauw, Loic Quinton, and Suely Vilela Sampaio

Subjects

proteome, Bothrops moojeni, toxins, venomics, Medicine

Abstract

Venom composition varies across snakes from all taxonomic levels and is influenced by the snakes’ age, habitat, diet, and sexual dimorphism. The present study reports the first in-depth investigation of venom composition in male and female Bothrops moojeni (B. moojeni) snakes (BmooM and BmooF, respectively) through three proteomics approaches associated with functional, cytotoxic, and immunoreactivity characterization. Compared with BmooM venom, BmooF venom exhibited weaker hyaluronidase, metalloproteinase, and phospholipase activity; stronger recognition by anti-bothropic serum; 1.4-fold stronger cytotoxicity; and greater number of peptides. The increased L-amino acid oxidase expression probably accounted for the stronger immunoreactivity and cytotoxicity of BmooF venom. BmooF and BmooM venom shared only 19% peptides. Some venom components were gender-specific, such as phospholipases B, phospholipase inhibitor, and hyaluronidases in BmooM, and cysteine-rich secretory proteins in BmooF. In conclusion, we describe herein the first proteomics study of B. moojeni snake venom and an in-depth characterization of gender-specific differences in venom composition. Altogether, our findings not only stress the importance of considering the snake’s gender during antivenom production, but also help to identify new potential drugs and biotechnological tools.

Published

2018

18. APETx4, a Novel Sea Anemone Toxin and a Modulator of the Cancer-Relevant Potassium Channel KV10.1

Author

Lien Moreels, Steve Peigneur, Diogo T. Galan, Edwin De Pauw, Lászlo Béress, Etienne Waelkens, Luis A. Pardo, Loïc Quinton, and Jan Tytgat

Subjects

sea anemone peptide, APETx, potassium channel, KV10.1, cancer, Biology (General), QH301-705.5

Abstract

The human ether-à-go-go channel (hEag1 or KV10.1) is a cancer-relevant voltage-gated potassium channel that is overexpressed in a majority of human tumors. Peptides that are able to selectively inhibit this channel can be lead compounds in the search for new anticancer drugs. Here, we report the activity-guided purification and electrophysiological characterization of a novel KV10.1 inhibitor from the sea anemone Anthopleura elegantissima. Purified sea anemone fractions were screened for inhibitory activity on KV10.1 by measuring whole-cell currents as expressed in Xenopus laevis oocytes using the two-microelectrode voltage clamp technique. Fractions that showed activity on Kv10.1 were further purified by RP-HPLC. The amino acid sequence of the peptide was determined by a combination of MALDI- LIFT-TOF/TOF MS/MS and CID-ESI-FT-ICR MS/MS and showed a high similarity with APETx1 and APETx3 and was therefore named APETx4. Subsequently, the peptide was electrophysiologically characterized on KV10.1. The selectivity of the toxin was investigated on an array of voltage-gated ion channels, including the cardiac human ether-à-go-go-related gene potassium channel (hERG or Kv11.1). The toxin inhibits KV10.1 with an IC50 value of 1.1 μM. In the presence of a similar toxin concentration, a shift of the activation curve towards more positive potentials was observed. Similar to the effect of the gating modifier toxin APETx1 on hERG, the inhibition of Kv10.1 by the isolated toxin is reduced at more positive voltages and the peptide seems to keep the channel in a closed state. Although the peptide also induces inhibitory effects on other KV and NaV channels, it exhibits no significant effect on hERG. Moreover, APETx4 induces a concentration-dependent cytotoxic and proapoptotic effect in various cancerous and noncancerous cell lines. This newly identified KV10.1 inhibitor can be used as a tool to further characterize the oncogenic channel KV10.1 or as a scaffold for the design and synthesis of more potent and safer anticancer drugs.

Published

2017

19. RGD surface functionalization of the hydrophilic acrylic intraocular lens material to control posterior capsular opacification.

Author

Yi-Shiang Huang, Virginie Bertrand, Dimitriya Bozukova, Christophe Pagnoulle, Christine Labrugère, Edwin De Pauw, Marie-Claire De Pauw-Gillet, and Marie-Christine Durrieu

Subjects

Medicine, Science

Abstract

Posterior Capsular Opacification (PCO) is the capsule fibrosis developed on implanted IntraOcular Lens (IOL) by the de-differentiation of Lens Epithelial Cells (LECs) undergoing Epithelial Mesenchymal Transition (EMT). Literature has shown that the incidence of PCO is multifactorial including the patient's age or disease, surgical technique, and IOL design and material. Reports comparing hydrophilic and hydrophobic acrylic IOLs have shown that the former has more severe PCO. On the other hand, we have previously demonstrated that the adhesion of LECs is favored on hydrophobic compared to hydrophilic materials. By combining these two facts and contemporary knowledge in PCO development via the EMT pathway, we propose a biomimetically inspired strategy to promote LEC adhesion without de-differentiation to reduce the risk of PCO development. By surface grafting of a cell adhesion molecule (RGD peptide) onto the conventional hydrophilic acrylic IOL material, the surface-functionalized IOL can be used to reconstitute a capsule-LEC-IOL sandwich structure, which has been considered to prevent PCO formation in literature. Our results show that the innovative biomaterial improves LEC adhesion, while also exhibiting similar optical (light transmittance, optical bench) and mechanical (haptic compression force, IOL injection force) properties compared to the starting material. In addition, compared to the hydrophobic IOL material, our bioactive biomaterial exhibits similar abilities in LEC adhesion, morphology maintenance, and EMT biomarker expression, which is the crucial pathway to induce PCO. The in vitro assays suggest that this biomaterial has the potential to reduce the risk factor of PCO development.

Published

2014

20. The proline-rich motif of the proDer p 3 allergen propeptide is crucial for protease-protease interaction.

Author

Marie-Eve Dumez, Julie Herman, Vincenzo Campisi, Ahlem Bouaziz, Frédéric Rosu, André Luxen, Isabel Vandenberghe, Edwin de Pauw, Jean-Marie Frère, André Matagne, Andy Chevigné, and Moreno Galleni

Subjects

Medicine, Science

Abstract

The majority of proteases are synthesized in an inactive form, termed zymogen, which consists of a propeptide and a protease domain. The propeptide is commonly involved in the correct folding and specific inhibition of the enzyme. The propeptide of the house dust mite allergen Der p 3, NPILPASPNAT, contains a proline-rich motif (PRM), which is unusual for a trypsin-like protease. By truncating the propeptide or replacing one or all of the prolines in the non-glycosylated zymogen with alanine(s), we demonstrated that the full-length propeptide is not required for correct folding and thermal stability and that the PRM is important for the resistance of proDer p 3 to undesired proteolysis when the protein is expressed in Pichia pastoris. Additionally, we followed the maturation time course of proDer p 3 by coupling a quenched-flow assay to mass spectrometry analysis. This approach allowed to monitor the evolution of the different species and to determine the steady-state kinetic parameters for activation of the zymogen by the major allergen Der p 1. This experiment demonstrated that prolines 5 and 8 are crucial for proDer p 3-Der p 1 interaction and for activation of the zymogen.

Published

2013

21. Proteomic investigation of aphid honeydew reveals an unexpected diversity of proteins.

Author

Ahmed Sabri, Sophie Vandermoten, Pascal D Leroy, Eric Haubruge, Thierry Hance, Philippe Thonart, Edwin De Pauw, and Frédéric Francis

Subjects

Medicine, Science

Abstract

Aphids feed on the phloem sap of plants, and are the most common honeydew-producing insects. While aphid honeydew is primarily considered to comprise sugars and amino acids, its protein diversity has yet to be documented. Here, we report on the investigation of the honeydew proteome from the pea aphid Acyrthosiphon pisum. Using a two-Dimensional Differential in-Gel Electrophoresis (2D-Dige) approach, more than 140 spots were isolated, demonstrating that aphid honeydew also represents a diverse source of proteins. About 66% of the isolated spots were identified through mass spectrometry analysis, revealing that the protein diversity of aphid honeydew originates from several organisms (i.e. the host aphid and its microbiota, including endosymbiotic bacteria and gut flora). Interestingly, our experiments also allowed to identify some proteins like chaperonin, GroEL and Dnak chaperones, elongation factor Tu (EF-Tu), and flagellin that might act as mediators in the plant-aphid interaction. In addition to providing the first aphid honeydew proteome analysis, we propose to reconsider the importance of this substance, mainly acknowledged to be a waste product, from the aphid ecology perspective.

Published

2013

22. Cation Involvement in Telomestatin Binding to G-Quadruplex DNA

Author

Frédéric Rosu, Valérie Gabelica, Nicolas Smargiasso, Gabriel Mazzucchelli, Kazuo Shin-Ya, and Edwin De Pauw

Subjects

Genetics, QH426-470, Biochemistry, QD415-436

Abstract

The binding mode of telomestatin to G-quadruplex DNA has been investigated using electrospray mass spectrometry, by detecting the intact complexes formed in ammonium acetate. The mass measurements show the incorporation of one extra ammonium ion in the telomestatin complexes. Experiments on telomestatin alone also show that the telomestatin alone is able to coordinate cations in a similar way as a crown ether. Finally, density functional theory calculations suggest that in the G-quadruplex-telomestatin complex, potassium or ammonium cations are located between the telomestatin and a G-quartet. This study underlines that monovalent cation coordination capabilities should be integrated in the rational design of G-quadruplex binding ligands.

Published

2010

23. Differential Kendrick’s Plots as an Innovative Tool for Lipidomics in Complex Samples: Comparison of Liquid Chromatography and Infusion-Based Methods to Sample Differential Study

Author

Justine Hustin, Christopher Kune, Johann Far, Gauthier Eppe, Delphine Debois, Loïc Quinton, and Edwin De Pauw

Subjects

Structural Biology, Spectroscopy

Abstract

Lipidomics has developed rapidly over the past decade. Nontargeted lipidomics from biological samples remains a challenge due to the high structural diversity, the concentration range of lipids, and the complexity of biological samples. We introduce here the use of differential Kendrick's plots as a rapid visualization tool for a qualitative nontargeted analysis of lipids categories and classes from data generated by either liquid chromatography-mass spectrometry (LC-MS) or direct infusion (nESI-MS). Each lipid class is easily identified by comparison with the theoretical Kendrick plot pattern constructed from exact mass measurements and by using MSKendrickFilter, an in-house Python software. The lipids are identified with the LIPID MAPS database. In addition, in LC-MS, the software based on the Kendrick plots returns the retention time from all the lipids belonging to the same series. Lipid extracts from a yeast (

Published

2022

24. Characterization of the Halochromic Gloeocapsin Pigment, a Cyanobacterial Biosignature for Paleobiology and Astrobiology

Author

Yannick J. Lara, Andréa McCann, Cédric Malherbe, Camille François, Catherine F. Demoulin, Marie Catherine Sforna, Gauthier Eppe, Edwin De Pauw, Annick Wilmotte, Philippe Jacques, and Emmanuelle J. Javaux

Subjects

Tandem Mass Spectrometry, Space and Planetary Science, Exobiology, Spectroscopy, Fourier Transform Infrared, Pigments, Biological, Cyanobacteria, Agricultural and Biological Sciences (miscellaneous)

Abstract

Ultraviolet (UV)-screening compounds represent a substantial asset for the survival of cyanobacteria in extreme environments exposed to high doses of UV radiations on modern and early Earth. Among these molecules, the halochromic pigment gloeocapsin remains poorly characterized and studied. In this study, we identified a gloeocapsin-producing cultivable cyanobacteria: the strain

Published

2022

25. Cyclic Peptide Protomer Detection in the Gas Phase: Impact on CCS Measurement and Fragmentation Patterns

Author

Andréa McCann, Christopher Kune, Philippe Massonnet, Johann Far, Marc Ongena, Gauthier Eppe, Loïc Quinton, Edwin De Pauw, RS: M4I - Imaging Mass Spectrometry (IMS), and Imaging Mass Spectrometry (IMS)

Subjects

MOBILITY-MASS-SPECTROMETRY, STRUCTURAL ISOMERS, Molecular Conformation, protomers, breakdown curves, Peptides, Cyclic, structures, BACILLUS-SUBTILIS, Lipopeptides, Protein Subunits, cyclic lipopeptides, ion mobility, Structural Biology, SEPARATION, Protons, CROSS-SECTION CCS, Spectroscopy, LIPIDS

Abstract

With the recent improvements in ion mobility resolution, it is now possible to separate small protomerictautomers, called protomers. In larger molecules above 1000 Dasuch as peptides, a few studies suggest that protomers do exist aswell and may contribute to their gas-phase conformationalheterogeneity. In this work, we observed a CCS distribution thatcan be explained by the presence of protomers of surfactin, a smalllipopeptide with no basic site. Following preliminary densityfunctional theoretical calculations, several protonation sites in thegas phase were energetically favorable in positive ionization mode.Experimentally, at least three near-resolved IM peaks wereobserved in positive ionization mode, while only one was detectedin negative ionization mode. These results were in good agreement with the DFT predictions. CID breakdown curve analysis afterIM separation showed different inflection points (CE50) suggesting that different intramolecular interactions were implied in thestabilization of the structures of surfactin. The fragment ratio observed after collision-induced fragmentation was also different,suggesting different ring-opening localizations. All these observations support the presence of protomers on the cyclic peptidemoieties of the surfactin. These data strongly suggest that protomeric tautomerism can still be observed on molecules above 1000 Daif the IM resolving power is sufficient. It also supports that the proton localization involves a change in the 3D structure that can affect the experimental CCS and the fragmentation channels of such peptides

Published

2022

26. Supplementary Materials Figures and Tables from Myoferlin Is a Key Regulator of EGFR Activity in Breast Cancer

Author

Vincent Castronovo, Philippe Delvenne, Eric Lifrange, Edwin De Pauw, Agnès Noel, Elettra Bianchi, Paul Peixoto, Vincent Hennequière, Christine Gilles, Akeila Bellahcène, Arnaud Blomme, and Andrei Turtoi

Abstract

PDF file, 2894K, Figure S1: Cell migration and invasion analysis following siRNA mediated silencing of myoferlin (MYOF) in MDA-MB231 cells. Figure S2: Myoferlin depletion in MDA-MB468 cells results in sustained EGFR phosphorylation upon EGF stimulation and impedes the EGF-induced cell migration. Figure S3: Analysis of time dependent pEGFR and EGFR expression patterns (48h post transfection with irrelevant siRNA) following EGF stimulation and chemical inhibition of the proteasome with MG132. Figure S4: Cellular adhesion assay on selected extracellular matrix proteins. Figure S5: Modulation of vimentin expression following myoferlin silencing in MDA-MB231 cells. Figure S6: Clathrin (CLH1) colocalizes with myoferlin and pEGFR during EGF mediated receptor activation and shows no modulation at the protein level following myoferlin silencing. Supplemental Tables Table S1: List of up-regulated breast tumor proteins obtained from the analysis of 3 non-tumoral adjacent and 3 tumoral specimens. Table S2: Average values (n=3) indicating the number of unique peptides, sequence coverage and score. Table S3: Glycosylated peptides observed for the proteins displayed in the Table 1.

Published

2023

27. Geometric Analysis of Shapes in Ion Mobility–Mass Spectrometry

Author

Jean R. N. Haler, Eric Béchet, Christopher Kune, Johann Far, and Edwin De Pauw

Subjects

Structural Biology, Spectroscopy

Abstract

Experimental ion mobility-mass spectrometry (IM-MS) results are often correlated to three-dimensional structures based on theoretical chemistry calculations. The bottleneck of this approach is the need for accurate values, both experimentally and theoretically predicted. Here, we continue the development of the trend-based analyses to extract structural information from experimental IM-MS data sets. The experimental collision cross-sections (CCSs) of synthetic systems such as homopolymers and small ionic clusters are investigated in terms of CCS trends as a function of the number of repetitive units (e.g., degree of polymerization (DP) for homopolymers) and for each detected charge state. Then, we computed the projected areas of expanding but perfectly defined geometric objects using an in-house software called MoShade. The shapes were modeled using computer-aided design software where we considered only geometric factors: no atoms, mass, chemical potentials, or interactions were taken into consideration to make the method orthogonal to classical methods for 3D shape assessments using time-consuming computational chemistry. Our modeled shape evolutions favorably compared to experimentally obtained CCS trends, meaning that the apparent volume or envelope of homogeneously distributed mass effectively modeled the ion-drift gas interactions as sampled by IM-MS. The CCSs of convex shapes could be directly related to their surface area. More importantly, this relationship seems to hold even for moderately concave shapes, such as those obtained by geometry-optimized structures of ions from conventional computational chemistry methods. Theoretical sets of expanding beads-on-a-string shapes allowed extracting accurate bead and string dimensions for two homopolymers, without modeling any chemical interactions.

Published

2022

28. Label-Free Higher Order Structure and Dynamic Investigation Method of Proteins in Solution Using an Enzymatic Reactor Coupled to Electrospray High-Resolution Mass Spectrometry Detection

Author

Elodie Grifnée, Christopher Kune, Cédric Delvaux, Loïc Quinton, Johann Far, Gabriel Mazzucchelli, and Edwin De Pauw

Subjects

Protein Denaturation, Spectrometry, Mass, Electrospray Ionization, Protein Conformation, Caseins, Cytochromes c, Proteins, Equipment Design, Lactoglobulins, Sensitivity and Specificity, Bioreactors, Structural Biology, Animals, Cattle, Trypsin, Horses, Spectroscopy, Peptide Hydrolases

Abstract

For decades, structural analysis of proteins have received considerable attention, from their sequencing to the determination of their 3D structures either in the free state (e.g., no host-guest system, apoproteins) or (non)covalently bound complexes. The elucidation of the 3D structures and the mapping of intra- and intermolecular interactions are valuable sources of information to understand the physicochemical properties of such systems. X-ray crystallography and nuclear magnetic resonance are methods of choice for obtaining structures at the atomic level. Nonetheless, they still present drawbacks which limit their use to highly purified systems in a relatively high amount. On the contrary, mass spectrometry (MS) has become a powerful tool thanks to its selectivity, sensitivity, and the development of structural methods both at the global shape and the residue level. The combination of several MS-based methods is mandatory to fully assign a putative structure in combination with computational chemistry and bioinformatics. In that context, we propose a strategy which complements the existing methods of structural studies (e.g., circular dichroism, hydrogen/deuterium exchange and cross-links experiments, nuclear magnetic resonance). The workflow is based on the collection of structural information on proteins from the apparition rates and the time of appearance of released peptides generated by a protease in controlled experimental conditions with online detection by electrospray high-resolution mass spectrometry. Nondenaturing, partially or fully denatured proteins were digested by the enzymatic reactor, i.e., β-lactoglobulin, cytochrome

Published

2021

29. Rapid visualization of lipopeptides and potential bioactive groups of compounds by combining ion mobility and MALDI imaging mass spectrometry

Author

Edwin De Pauw, Loïc Quinton, Christopher Kune, Johann Far, Raphaël La Rocca, Andréa McCann, Janina Oetjen, Anthony Arguelles Arias, Gauthier Eppe, and Marc Ongena

Subjects

MALDI imaging, Chromatography, Kendrick mass, Ion-mobility spectrometry, Chemistry, Microbial interaction, Metabolite, Mass spectrometry, Mass spectrometry imaging, Ion, Lipopeptides, chemistry.chemical_compound, Tandem Mass Spectrometry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Drug Discovery, Molecular Medicine, Chromatography, High Pressure Liquid

Abstract

Mass spectrometry imaging (MSI) has become a powerful method for mapping metabolite distribution in a tissue. Applied to bacterial colonies, MSI has a bright future, both for the discovery of new bioactive compounds and for a better understanding of bacterial antibiotic resistance mechanisms. Coupled with separation techniques such as ion mobility mass spectrometry (IM-MS), the identification of metabolites directly on the image is now possible and does not require additional analysis such as HPLC-MS/MS. In this article, we propose to apply a semi-targeted workflow for rapid IM-MSI data analysis focused on the search for bioactive compounds. First, chemically-related compounds showing a repetitive mass unit (i.e. lipids and lipopeptides) were targeted based on the Kendrick mass defect analysis. The detected groups of potentially bioactive compounds were then confirmed by fitting their measured ion moibilites to their measured m/z values. Using both their m/z and ion mobility values, the selected groups of compounds were identified using the available databases and finally their distribution was observed on the image. Using this workflow on a co-culture of bacteria, we were able to detect and localize bioactive compounds involved in the microbial interaction.

Published

2021

30. Identification of the Degradation Products from α‐Ionone Used as Stabiliser in 'Green' Propellants through its Lifetime

Author

Caroline Damseaux, Edwin De Pauw, Gauthier Eppe, István E. Markó, Christian Damblon, Xiaofeng Ma, Rowan Dobson, Georges Scholl, Alain Dejeaifve, and Jean-Christophe Monbaliu

Subjects

Propellant, chemistry.chemical_compound, Materials science, chemistry, General Chemical Engineering, Stabiliser, Degradation (geology), Organic chemistry, General Chemistry, Ionone

Published

2021

31. Identification of the Degradation Products from α‐Tocopherol Used as Stabiliser in 'Green' Propellants through its Lifetime

Author

Caroline Damseaux, Georges Scholl, Christian Damblon, Alain Dejeaifve, Rowan Dobson, Edwin De Pauw, and Gauthier Eppe

Subjects

General Chemical Engineering, General Chemistry

Published

2022

32. Versatile role of

Author

Enrico, Ferrarini, Mihael, Špacapan, Van Bach, Lam, Andrea, McCann, Catherine, Cesa-Luna, Bishnu Prasad, Marahatta, Edwin, De Pauw, René, De Mot, Vittorio, Venturi, and Monica, Höfte

Published

2022

33. Potential Role of Epithelial Endoplasmic Reticulum Stress and Anterior Gradient Protein 2 Homologue in Crohn’s Disease Fibrosis

Author

Florence Quesada Calvo, Florian Rieder, Dominique Baiwir, Marie-Alice Meuwis, Charlotte Massot, Noëlla Bletard, Edwin De Pauw, Philippe Delvenne, Shurong Hu, Nicolas Pierre, Sophie Vieujean, Emeline Bequet, Edouard Louis, Carla Coimbra Marques, Gabriel Mazzucchelli, and Catherine Salee

Subjects

Proteomics, 0301 basic medicine, Colon, AGR2, Pilot Projects, Cell Line, 03 medical and health sciences, HT29 Cells, Mucoproteins, 0302 clinical medicine, Crohn Disease, Ileum, Humans, Medicine, Intestinal Mucosa, Fibroblast, Anterior Gradient Protein 2 Homolog, Oncogene Proteins, business.industry, Endoplasmic reticulum, Gastroenterology, Original Articles, General Medicine, Endoplasmic Reticulum Stress, Fibrosis, Molecular biology, Intestinal epithelium, Epithelium, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Unfolded protein response, business

Abstract

Background and Aims Intestinal fibrosis is a common complication of Crohn’s disease [CD]. It is characterised by an accumulation of fibroblasts differentiating into myofibroblasts secreting excessive extracellular matrix. The potential role of the intestinal epithelium in this fibrotic process remains poorly defined. Methods We performed a pilot proteomic study comparing the proteome of surface epithelium, isolated by laser-capture microdissection, in normal and fibrotic zones of resected ileal CD strictures [13 zones collected in five patients]. Proteins of interests were validated by immunohistochemistry [IHC] in ileal and colonic samples of stricturing CD [n = 44], pure inflammatory CD [n = 29], and control [n = 40] subjects. The pro-fibrotic role of one selected epithelial protein was investigated through in-vitro experiments using HT-29 epithelial cells and a CCD-18Co fibroblast to myofibroblast differentiation model. Results Proteomic study revealed an endoplasmic reticulum [ER] stress proteins increase in the epithelium of CD ileal fibrotic strictures, including anterior gradient protein 2 homologue [AGR2] and binding-immunoglobulin protein [BiP]. This was confirmed by IHC. In HT-29 cells, tunicamycin-induced ER stress triggered AGR2 intracellular expression and its secretion. Supernatant of these HT-29 cells, pre-conditioned by tunicamycin, led to a myofibroblastic differentiation when applied on CCD-18Co fibroblasts. By using recombinant protein and blocking agent for AGR2, we demonstrated that the secretion of this protein by epithelial cells can play a role in the myofibroblastic differentiation. Conclusions The development of CD fibrotic strictures could involve epithelial ER stress and particularly the secretion of AGR2.

Published

2021

34. FT-ICR Mass Spectrometry Imaging at Extreme Mass Resolving Power Using a Dynamically Harmonized ICR Cell with 1ω or 2ω Detection

Author

Mathieu Tiquet, Raphaël La Rocca, Stefan Kirnbauer, Samuele Zoratto, Daan Van Kruining, Loïc Quinton, Gauthier Eppe, Pilar Martinez-Martinez, Martina Marchetti-Deschmann, Edwin De Pauw, Johann Far, RS: MHeNs - R3 - Neuroscience, and Basic Neuroscience 3

Subjects

CALIBRATION, Diagnostic Imaging, Ions, SPACE-CHARGE, MOTION, Fourier Analysis, ACCURACY, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, SAMPLE PREPARATION, Cyclotrons, ELECTRIC-FIELD, Analytical Chemistry

Abstract

MALDI mass spectrometry imaging (MALDI MSI) is a powerful analytical method for achieving 2D localization of compounds from thin sections of typically but not exclusively biological samples. The dynamically harmonized ICR cell (ParaCell) was recently introduced to achieve extreme spectral resolution capable of providing the isotopic fine structure of ions detected in complex samples. The latest improvement in the ICR technology also includes 2 omega detection, which significantly reduces the transient time while preserving the nominal mass resolving power of the ICR cell. High-resolution MS images acquired on FT-ICR instruments equipped with 7T and 9.4T superconducting magnets and the dynamically harmonized ICR cell operating at suboptimal parameters suffered severely from the pixel-to-pixel shifting of m/z peaks due to space-charge effects. The resulting profile average mass spectra have depreciated mass measurement accuracy and mass resolving power under the instrument specifications that affect the confidence level of the identified ions. Here, we propose an analytical workflow based on the monitoring of the total ion current to restrain the pixel-to-pixel m/z shift. Adjustment of the laser parameters is proposed to maintain high spectral resolution and mass accuracy measurement within the instrument specifications during MSI analyses. The optimized method has been successfully employed in replicates to perform high-quality MALDI MS images at resolving power (FWHM) above 1,000,000 in the lipid mass range across the whole image for superconducting magnets of 7T and 9.4T using 1 and 2 omega detection. Our data also compare favorably with MALDI MSI experiments performed on higher-magnetic-field superconducting magnets, including the 21T MALDI FT-ICR prototype instrument of the NHMFL group at Tallahassee, Florida.

Published

2022

35. Use of Capillary Zone Electrophoresis Coupled to Electrospray Mass Spectrometry for the Detection and Absolute Quantitation of Peptidoglycan-Derived Peptides in Bacterial Cytoplasmic Extracts

Author

Madeleine Boulanger, Cédric Delvaux, Johann Far, Bernard Joris, Marjorie Dauvin, Loïc Quinton, Edwin De Pauw, Dominique Mengin-Lecreulx, Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Enveloppes Bactériennes et Antibiotiques (ENVBAC), Département Microbiologie (Dpt Microbio), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut de Biologie Intégrative de la Cellule (I2BC), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects

Cytoplasm, Spectrometry, Mass, Electrospray Ionization, [SDV]Life Sciences [q-bio], Peptide, Peptidoglycan, Tripeptide, Bacterial growth, 010402 general chemistry, 01 natural sciences, Bacterial cell structure, Analytical Chemistry, chemistry.chemical_compound, Capillary electrophoresis, chemistry.chemical_classification, biology, Chemistry, 010401 analytical chemistry, Electrophoresis, Capillary, biology.organism_classification, Cephalosporins, 0104 chemical sciences, Biochemistry, Peptides, Bacteria, Bacillus subtilis

Abstract

Peptidoglycan (PGN) is an essential structure found in the bacterial cell wall. During the bacterial life cycle, PGN continuously undergoes biosynthesis and degradation to ensure bacterial growth and division. The resulting PGN fragments (muropeptides and peptides), which are generated by the bacterial autolytic system, are usually transported into the cytoplasm to be recycled. On the other hand, PGN fragments can act as messenger molecules involved in the bacterial cell wall stress response as in the case of β-lactamase induction in the presence of β-lactam antibiotic or in triggering mammalian innate immune response. During their cellular life, bacteria modulate their PGN degradation by their autolytic system or their recognition by the mammalian innate immune system by chemically modifying their PGN. Among these modifications, the amidation of the ε-carboxyl group of meso-diaminopimelic acid present in the PGN peptide chain is frequently observed. Currently, the detection and quantitation of PGN-derived peptides is still challenging because of the difficulty in separating these highly hydrophilic molecules by RP-HPLC as these compounds are eluted closely after the column void volume or coeluted in many cases. Here, we report the use of capillary zone electrophoresis coupled via an electrospray-based CE-MS interface to high-resolution mass spectrometry for the quantitation of three PGN peptides of interest and their amidated derivatives in bacterial cytoplasmic extracts. The absolute quantitation of the tripeptide based on the [13C,15N] isotopically labeled standard was also performed in crude cytoplasmic extracts of bacteria grown in the presence or absence of a β-lactam antibiotic (cephalosporin C). Despite the high complexity of the samples, the repeatability of the CZE-MS quantitation results was excellent, with relative standard deviations close to 1%. The global reproducibility of the method including biological handling was better than 20%.

Published

2021

36. Using Ion Mobility–Mass Spectrometry to Extract Physicochemical Enthalpic and Entropic Contributions from Synthetic Polymers

Author

Johann Far, Richard Hoogenboom, Edwin De Pauw, Jean Haler, Victor Retamero De La Rosa, and Christopher Kune

Subjects

chemistry.chemical_classification, Ion-mobility spectrometry, Coordination number, Thermodynamics, Polymer, Degree of polymerization, Mass spectrometry, Ion, chemistry.chemical_compound, Monomer, chemistry, Structural Biology, Side chain, Spectroscopy

Abstract

Ion mobility-mass spectrometry (IM-MS) experiments are mostly used hand in hand with computational chemistry to correlate mobility measurements to the shape of the ions. Recently, we developed an automatable method to fit IM data obtained with synthetic homopolymers (i.e., collision cross sections; CCS) without resorting to computational chemistry. Here, we further develop the experimental IM data interpretation to explore physicochemical properties of a series of nine polymers and their monomer units by monitoring the relationship between the CCS and the degree of polymerization (DP). Several remarkable points of the CCS evolutions as a function of the DP were found: the first observed DP of each charge state (ΔDPfirst DP), the DPs constituting the structural rearrangements (ΔDPrearr), and the DPs at the half-rearrangement (DPhalf-rearr). Given that these remarkable points do not rely on absolute CCS values, but on their relative evolution, they can be extracted from CCS or raw IM data without accurate IM calibration. Properties such as coordination numbers of the cations, steric hindrance, or side chain flexibility can be compared. This leads to fit parameter predictions based on the nature of the monomer unit. The interpretation of the fit parameters, extracted using solely experimental data, allows a rapid screening of the properties of the polymers.

Published

2020

37. Response to Comment on Effective Temperature and Structural Rearrangement in Trapped Ion Mobility Spectrometry

Author

Denis Morsa, Edwin De Pauw, Valérie Gabelica, and Emeline Hanozin

Subjects

Chemistry, Ion-mobility spectrometry, Analytical chemistry, Effective temperature, Analytical Chemistry

Published

2020

38. Dual-polarity SALDI FT-ICR MS imaging and Kendrick mass defect data filtering for lipid analysis

Author

Alexandre Verdin, Cédric Malherbe, Edwin De Pauw, Gauthier Eppe, Wendy Müller, Johann Far, and Christopher Kune

Subjects

Analytical chemistry, Metal Nanoparticles, 02 engineering and technology, Mass spectrometry, 01 natural sciences, Biochemistry, Mass Spectrometry, Mass spectrometry imaging, Analytical Chemistry, Mice, Desorption, Ionization, Lipidomics, Animals, Brain Chemistry, chemistry.chemical_classification, Fourier Analysis, Kendrick mass, Chemistry, Biomolecule, 010401 analytical chemistry, 021001 nanoscience & nanotechnology, Lipids, 0104 chemical sciences, Colloidal gold, Gold, 0210 nano-technology

Abstract

Lipids are biomolecules of crucial importance involved in critical biological functions. Yet, lipid content determination using mass spectrometry is still challenging due to their rich structural diversity. Preferential ionisation of the different lipid species in the positive or negative polarity is common, especially when using soft ionisation mass spectrometry techniques. Here, we demonstrate the potency of a dual-polarity approach using surface-assisted laser desorption/ionisation coupled to Fourier transform-ion cyclotron resonance (SALDI FT-ICR) mass spectrometry imaging (MSI) combined with Kendrick mass defect data filtering to (i) identify the lipids detected in both polarities from the same tissue section and (ii) show the complementarity of the dual-polarity data, both regarding the lipid coverage and the spatial distributions of the various lipids. For this purpose, we imaged the same mouse brain section in the positive and negative ionisation modes, on alternate pixels, in a SALDI FT-ICR MS imaging approach using gold nanoparticles (AuNPs) as dual-polarity nanosubstrates. Our study demonstrates, for the first time, the feasibility of (i) a dual-polarity SALDI-MSI approach on the same tissue section, (ii) using AuNPs as nanosubstrates combined with a FT-ICR mass analyser and (iii) the Kendrick mass defect data filtering applied to SALDI-MSI data. In particular, we show the complementarity in the lipids detected both in a given ionisation mode and in the two different ionisation modes. Graphical abstract.

Published

2020

39. Discovery of biomarker candidates associated with the risk of short-term and mid/long-term relapse after infliximab withdrawal in Crohn’s patients: a proteomics-based study

Author

Dominique Baiwir, Edwin De Pauw, Nicolas Pierre, Marie-Alice Meuwis, D. Laharie, Yoram Bouhnik, Edouard Louis, Vân Anh Huynh-Thu, Gabriel Mazzucchelli, Nicolas Smargiasso, and Jean-Frederic Colombel

Subjects

Oncology, medicine.medical_specialty, Crohn's disease, business.industry, Proportional hazards model, medicine.drug_class, Gastroenterology, Disease, medicine.disease, Antimetabolite, Inflammatory bowel disease, Infliximab, Discontinuation, Internal medicine, medicine, Biomarker (medicine), business, medicine.drug

Abstract

ObjectiveA subset of Crohn’s disease (CD) patients experiences mid/long-term remission after infliximab withdrawal. Biomarkers are needed to identify those patients.DesignNew biomarkers of relapse were searched in the baseline serum of CD patients stopping infliximab when they were under combined therapy (antimetabolite and infliximab) and stable clinical remission (diSconTinuation in CrOhn’s disease patients in stable Remission on combined therapy with Immunosuppressors cohort, n=102). From shotgun proteomics experiment (discovery step), biomarker candidates were identified and further targeted by selected reaction monitoring (verification step). The dataset was stratified to search for markers of short-term (6 months). The risk of relapse and the predicting capacity associated with biomarker candidates were evaluated using univariate Cox model and log-rank statistic, respectively. To test their complementary predicting capacity, biomarker candidates were systematically combined in pairs.ResultsDistinct biomarker candidates were associated with the risk (HR) of short-term (15 proteins, 2.9ConclusionWe identified for the first time circulating biomarker candidates associated with the risk of mid/long-term relapse in CD patients stopping infliximab. We also highlight a sequence of pathophysiological processes leading to relapse, this could help to better understand the disease progression. Our findings may pave the way for a better non-invasive evaluation of the risk of relapse when contemplating antitumour necrosis factor α withdrawal in CD patients.

Published

2020

40. Solute Carrier Family 12 Member 2 as a Proteomic and Histological Biomarker of Dysplasia and Neoplasia in Ulcerative Colitis

Author

Sena Bluemel, A Vijverman, Marie-Alice Meuwis, Cécile Oury, Laurence Servais, Florence Quesada Calvo, Dominique Baiwir, Michael Scharl, Christine Sempoux, Odile Wéra, Edouard Louis, Noëlla Bletard, Gabriel Mazzucchelli, Carla Coimbra Marques, Laurence de Leval, Roberto Manzini, Sophie Vieujean, Angela-Maria Merli, Gerhard Rogler, Edwin De Pauw, Charlotte Massot, Philippe Delvenne, Arnaud Colard, and University of Zurich

Subjects

0303 health sciences, Pathology, medicine.medical_specialty, business.industry, Colorectal cancer, Gastroenterology, Cancer, 610 Medicine & health, General Medicine, medicine.disease, Ulcerative colitis, 3. Good health, Staining, 03 medical and health sciences, 10219 Clinic for Gastroenterology and Hepatology, 0302 clinical medicine, Dysplasia, 030220 oncology & carcinogenesis, medicine, Biomarker (medicine), Immunohistochemistry, Clinical significance, business, 030304 developmental biology

Abstract

Background and Aims Ulcerative colitis [UC] patients have a greater risk of developing colorectal cancer through inflammation-dysplasia-carcinoma sequence of transformation. The histopathological diagnosis of dysplasia is therefore of critical clinical relevance, but dysplasia may be difficult to distinguish from inflammatory changes. Methods A proteomic pilot study on five UC colorectal dysplastic patients highlighted proteins differentially distributed between paired dysplastic, inflammatory, and normal tissues. The best candidate marker was selected and immunohistochemistry confirmation was performed on azoxymethane/dextran sulphate sodium [AOM/DSS] mouse model lesions, 37 UC-dysplasias, 14 UC-cancers, 23 cases of long-standing UC, 35 sporadic conventional adenomas, 57 sporadic serrated lesions, and 82 sporadic colorectal cancers. Results Differential proteomics found 11 proteins significantly more abundant in dysplasia compared with inflammation, including Solute carrier family 12 member 2 [SLC12A2] which was confidently identified with eight specific peptides and was below the limit of quantitation in both inflammatory and normal colon. SLC12A2 immunohistochemical analysis confirmed the discrimination of preneoplastic and neoplastic lesions from inflammatory lesions in mice, in UC, and in sporadic contexts. A specific SLC12A2 staining pattern termed ‘loss of gradient’ reached 89% sensitivity, 95% specificity, and 92% accuracy for UC-dysplasia diagnosis together with an inter-observer agreement of 95.24% [multirater κ free of 0.90; 95% CI: 0.78 - 1.00]. Such discrimination could not be obtained by Ki67 staining. This specific pattern was also associated with sporadic colorectal adenomas and cancers. Conclusions We found a specific SLC12A2 immunohistochemical staining pattern in precancerous and cancerous colonic UC lesions which could be helpful for diagnosing dysplasia and cancer in UC and non-UC patients.

Published

2020

41. Can IM-MS Collision Cross Sections of Biomolecules Be Rationalized Using Collision Cross-Section Trends of Polydisperse Synthetic Homopolymers?

Author

Nicolas Gilles, Loïc Quinton, Philippe Massonnet, Johann Far, Jean Haler, Gilles Mourier, Gregory Upert, Edwin De Pauw, Imaging Mass Spectrometry (IMS), and RS: M4I - Imaging Mass Spectrometry (IMS)

Subjects

IONS, chemistry.chemical_classification, MOBILITY-MASS-SPECTROMETRY, Chemistry, Ion-mobility spectrometry, Biomolecule, 010401 analytical chemistry, Dispersity, Ionic bonding, PEPTIDES, Polymer, 010402 general chemistry, ISOMERS, 01 natural sciences, 0104 chemical sciences, Ion, Cross section (physics), GAS, Structural Biology, Chemical physics, Intramolecular force, DRIFT-TUBE, POLYMERS, Spectroscopy

Abstract

In the past, we developed a method inferring physicochemical properties from ion mobility mass spectrometry (IM-MS) data from polydisperse synthetic homopolymers. We extend here the method to biomolecules that are generally monodisperse. Similarities in the IM-MS behavior were illustrated on proteins and peptides. This allows one to identify ionic species for which intramolecular interactions lead to specific structures.

Published

2020

42. FTICR Mass spectrometry imaging at extreme mass resolving power using 1 a dynamically harmonized ICR cell with 1ω or 2ω detection

Author

Mathieu Tiquet, Raphaël La Rocca, Stefan Kirnbauer, Samuele Zoratto, Daan van Kruining, Loïc Quinton, Gauthier Eppe, Pilar Martinez-Martinez, Martina Marchetti-Deschmann, Edwin De Pauw, and Johann Far

Abstract

MALDI mass spectrometry imaging (MALDI MSI) is a powerful analytical method providing the 2D localization of compounds from thin sections of typically but not exclusively biological samples. The dynamically harmonized ICR cell (ParaCell©) was recently introduced to achieve extreme spectral resolution capable to provide the isotopic fine structure of ions detected in complex samples. The latest improvement in ICR technology also includes 2ω detection which significantly reduces the transient time while preserving the nominal mass resolving power of the ICR cell. High-resolution MS images acquired on FT-ICR instruments equipped with 7T and 9.4T superconducting magnets and the dynamically harmonized ICR cell operating at suboptimal parameters, suffered severely from the pixel-to-pixel shifting of m/z peaks due to space-charge effects. The resulting profile average mass spectra have depreciated mass measurement accuracy and mass resolving power under the instrument specifications that affect the confidence level of the identified ions. Here we propose an analytical workflow based on the monitoring of the Total Ion Current to restrain the pixel-to-pixel m/z shift. Adjustment of the laser parameters is proposed to maintain high spectral resolution and mass accuracy measurement within the instrument specifications during MSI analyses. The optimized method has been successfully employed in replicates to perform high-quality MALDI MS images at resolving power (FWHM) above 1,000,000 in the lipid mass range across the whole image for superconducting magnets of 7T and 9.4T using 1 and 2ω detection. Our data also compare favorably with MALDI MSI experiments performed on higher magnetic field superconducting magnets, including the 21T MALDI FT-ICR prototype instrument of the NHMFL group at Tallahassee, Florida.

Published

2022

43. A Mechanistic Study of Protonated Aniline to Protonated Phenol Substitution Considering Tautomerization by Ion Mobility Mass Spectrometry and Tandem Mass Spectrometry

Author

Gauthier Eppe, Christopher Kune, Loïc Quinton, Jean Haler, Johann Far, Cédric Delvaux, and Edwin De Pauw

Subjects

Ion-mobility spectrometry, 010401 analytical chemistry, Protonation, 010402 general chemistry, Mass spectrometry, Tandem mass spectrometry, 01 natural sciences, Tautomer, 0104 chemical sciences, chemistry.chemical_compound, Aniline, chemistry, Structural Biology, Computational chemistry, Nucleophilic substitution, Phenol, Spectroscopy

Abstract

We report the use of ion mobility mass spectrometry (IMMS) and energy-resolved collisional activation to investigate gas-phase reactions of protonated aniline and protonated phenol. Protonated aniline prototropic tautomerization and nucleophilic substitution (SN1) to produce phenol with traces of water in the IMMS cell are reported. Tautomerization of protonated phenol and its ability to form protonated aniline in presence of ammonia in the gas phase are also observed. These results are supported by energy landscapes obtained from computational chemistry. These structure modifications in the IMMS cell affected the measured collision cross section (CCS). A thorough understanding of the gas-phase reactions occurring in IMMS appears mandatory before using the experimental CCS as a robust descriptor which is stated by the recent literature.

Published

2019

44. Rapid Visualization of Chemically Related Compounds Using Kendrick Mass Defect As a Filter in Mass Spectrometry Imaging

Author

Daan van Kruining, Mathieu Tiquet, La Rocca Raphaël, Edwin De Pauw, Christopher Kune, Marc Ongena, Anthony Arguelles Arias, Gauthier Eppe, Pilar Martinez Martinez, Loïc Quinton, Johann Far, Andréa McCann, Promovendi PHPC, Psychiatrie & Neuropsychologie, and RS: MHeNs - R3 - Neuroscience

Subjects

Bacillus, 010402 general chemistry, Mass spectrometry, Proof of Concept Study, 01 natural sciences, LIPIDOMICS, Mass spectrometry imaging, Analytical Chemistry, Mice, Data filtering, Pseudomonas, Animals, SPECTRA, TOOL, Organic Chemicals, BRAIN SECTIONS, Chromatography, Kendrick mass, Chemistry, 010401 analytical chemistry, Brain, 0104 chemical sciences, Molecular Weight, PHOSPHOLIPIDS, Mass, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Algorithms, Software

Abstract

Kendrick mass defect (KMD) analysis is widely used for helping the detection and identification of chemically related compounds based on exact mass measurements. We report here the use of KMD as a criterion for filtering complex mass spectrometry dataset. The method enables an automated, easy and efficient data processing, enabling the reconstruction of 2D distributions of family of homologous compounds from MSI images. We show that the KMD filtering, based on an in-house software, is suitable and robust for high resolution (full width at half-maximum, FWHM, at m/z 410 of 20 000) and very high-resolution (FWHM, at m/z 410 of 160 000) MSI data. This method has been successfully applied to two different types of samples, bacteria co-cultures and brain tissue section

Published

2019

45. Precise co-registration of mass spectrometry imaging, histology, and laser microdissection-based omics

Author

Dominique Baiwir, Gabriel Mazzucchelli, Ron M. A. Heeren, Benjamin Balluff, Edwin De Pauw, Frédéric Dewez, Marta Martin-Lorenzo, Michael Herfs, Imaging Mass Spectrometry (IMS), and RS: M4I - Imaging Mass Spectrometry (IMS)

Subjects

Proteomics, Co registration, Microproteomics, Breast Neoplasms, 02 engineering and technology, Computational biology, 01 natural sciences, Biochemistry, Mass Spectrometry, Mass spectrometry imaging, Total error, Analytical Chemistry, Humans, Segmentation, Multiplex, neoplasms, Laser capture microdissection, Co-registration, Chemistry, Communication, Lasers, 010401 analytical chemistry, Histology, Biological tissue, 021001 nanoscience & nanotechnology, digestive system diseases, Neoplasm Proteins, 0104 chemical sciences, Intratumor heterogeneity, Female, Laser microdissection, 0210 nano-technology

Abstract

Mass spectrometry imaging (MSI) is an analytical technique for the unlabeled and multiplex imaging of molecules in biological tissue sections. It therefore enables the spatial and molecular annotations of tissues complementary to histology. It has already been shown that MSI can guide subsequent material isolation technologies such as laser microdissection (LMD) to enable a more in-depth molecular characterization of MSI-highlighted tissue regions. However, with MSI now reaching spatial resolutions at the single-cell scale, there is a need for a precise co-registration between MSI and the LMD. As proof-of-principle, MSI of lipids was performed on a breast cancer tissue followed by a segmentation of the data to detect molecularly distinct segments within its tumor areas. After image processing of the segmentation results, the coordinates of the MSI-detected segments were passed to the LMD system by three co-registration steps. The errors of each co-registration step were quantified and the total error was found to be less than 13 μm. With this link established, MSI data can now accurately guide LMD to excise MSI-defined regions of interest for subsequent extract-based analyses. In our example, the excised tissue material was then subjected to ultrasensitive microproteomics in order to determine predominant molecular mechanisms in each of the MSI-highlighted intratumor segments. This work shows how the strengths of MSI, histology, and extract-based omics can be combined to enable a more comprehensive molecular characterization of in situ biological processes. Electronic supplementary material The online version of this article (10.1007/s00216-019-01983-z) contains supplementary material, which is available to authorized users.

Published

2019

46. Identification of new bioactive peptides from Kefir milk through proteopeptidomics: Bioprospection of antihypertensive molecules

Author

Luciana Barbosa Coitinho, Bianca P. Campagnaro, Lucas Cunha Dias de Rezende, Andreia G. F. Friques, Brenna Lepaus Monteiro, Elisardo C. Vasquez, Thiago de Melo Costa Pereira, Loïc Quinton, Fernanda Gobbi Amorim, Edwin De Pauw, and Ananda T. Dias

Subjects

Proteomics, Peptidyl-Dipeptidase A, Pharmacology, Models, Biological, 01 natural sciences, Analytical Chemistry, law.invention, Probiotic, Kefir, 0404 agricultural biotechnology, law, Animals, Shotgun proteomics, Ace inhibition, Antihypertensive Agents, Binding Sites, biology, Chemistry, 010401 analytical chemistry, Angiotensin-converting enzyme, 04 agricultural and veterinary sciences, General Medicine, 040401 food science, Enzyme assay, Protein Structure, Tertiary, 0104 chemical sciences, Molecular Docking Simulation, Plethysmography, Milk, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, biology.protein, Cattle, Peptides, Digestion, Food Science

Abstract

Kefir, a probiotic beverage prepared from fermented milk, has been associated with antihypertensive activity. However, the bioactive molecules responsible for this activity still remain unclear. Therefore, in this study we aim to evaluate the mechanisms of the antihypertensive effects of Kefir in the two-kidney one-clip hypertension model, and to bioprospect for bioactive peptides identified by proteomic methodologies. Treatment with Kefir was performed via gavage, and resulted in a 37 mmHg reduction in systolic arterial pressure and 19% inhibition of angiotensin converting enzyme (ACE) activity. For the proteopeptidomic study, the protein extract of Kefir beverage and non-fermented bovine milk were analysed by MALDI-TOF mass spectrometry, and their tryptic digestion products sequenced via Shotgun proteomics (Q-Exactive mass spectrometer). A list of 35 peptides with potential hypertensive activity due to ACE inhibition were identified. These results demonstrate the benefits of Kefir products, and may guide the design of new antihypertensive drugs.

Published

2019

47. Multi-Enzymatic Limited Digestion: The Next-Generation Sequencing for Proteomics?

Author

Raphaël La Rocca, Nicolas Smargiasso, Elodie Grifnée, Dominique Baiwir, Rémi Longuespée, Denis Morsa, Edwin De Pauw, Tyler A. Zimmerman, Marie-Alice Meuwis, Emeline Hanozin, and Gabriel Mazzucchelli

Subjects

Proteomics, 0301 basic medicine, Flexibility (engineering), 030102 biochemistry & molecular biology, Computer science, High-Throughput Nucleotide Sequencing, General Chemistry, Computational biology, Biochemistry, DNA sequencing, 03 medical and health sciences, 030104 developmental biology, Sequence Analysis, Protein, Tandem Mass Spectrometry, Redundancy (engineering), Humans, De novo sequencing, Amino Acid Sequence, Peptides, Protein Processing, Post-Translational, Algorithms

Abstract

Over the past 40 years, proteomics, generically defined as the field dedicated to the identification and analysis of proteins, has tremendously gained in popularity and potency through advancements in genome sequencing, separative techniques, mass spectrometry, and bioinformatics algorithms. As a consequence, its scope of application has gradually enlarged and diversified to meet specialized topical biomedical subjects. Although the tryptic bottom-up approach is widely regarded as the gold standard for rapid screening of complex samples, its application for precise and confident mapping of protein modifications is often hindered due to partial sequence coverage, poor redundancy in indicative peptides, and lack of method flexibility. We here show how the synergic and time-limited action of a properly diluted mix of multiple enzymes can be exploited in a versatile yet straightforward protocol to alleviate present-day drawbacks. Merging bottom-up and middle-down ideologies, our results highlight broad assemblies of overlapping peptides that enable refined and reliable characterizations of proteins, including variant identification, and their carried modifications, including post-translational modifications, truncations, and cleavages. Beyond this boost in performance, our methodology also offers efficient de novo sequencing capabilities, in view of which we here present a dedicated custom assembly algorithm.

Published

2019

48. The N-glycan profile of the peritrophic membrane in the Colorado potato beetle larva (Leptinotarsa decemlineata)

Author

Edwin De Pauw, Guy Smagghe, Kristof De Schutter, Els J.M. Van Damme, Dongdong Liu, and Nicolas Smargiasso

Subjects

0106 biological sciences, 0301 basic medicine, Glycosylation, Physiology, media_common.quotation_subject, Insect, 01 natural sciences, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, Chitin, Polysaccharides, Animals, Leptinotarsa, media_common, biology, fungi, Colorado potato beetle, Midgut, biology.organism_classification, Cell biology, Coleoptera, Gastrointestinal Tract, carbohydrates (lipids), 010602 entomology, Biopesticide, 030104 developmental biology, Secretory protein, chemistry, Larva, Insect Science

Abstract

The insect peritrophic membrane (PM) is a non-cellular structure composed of secreted proteins imbedded in a proteoglycan matrix together with chitin. It separates the midgut epithelium from the intestinal contents, and functions in the digestion of food. Furthermore it acts as a protective barrier against abrasive particles and microbial infections. Here we studied for the first time the N-glycome of the PM. We identified the N-glycan structures present in the PM of the Colorado potato beetle (CPB) at the fourth larval stage using MALDI-TOF mass spectrometry. In parallel, we correlated the N-glycan data to the presence of the N-glycosylation related genes (NGRGs) in the transcriptome of epithelial midgut cells. The presumed activities of the identified genes support the N-glycan profile resolved for the proteins in the PM. To our knowledge these data are the first report on the N-glycome of the PM of a pest insect. These results will contribute to the study of the importance of N-glycosylation in the function and structure of the PM. In addition, the data can help to find novel targets and design better biopesticides for pest control.

Published

2019

49. Towards the use of ion mobility mass spectrometry derived collision cross section as a screening approach for unambiguous identification of targeted pesticides in food

Author

Michael McCullagh, Séverine Goscinny, Johann Far, Edwin De Pauw, and Gauthier Eppe

Subjects

Ion-mobility spectrometry, Chemistry, Electrospray ionization, 010401 analytical chemistry, Organic Chemistry, Reference data (financial markets), Pesticide Residues, Analytical chemistry, Food Contamination, Standard solution, Mass spectrometry, 01 natural sciences, High-performance liquid chromatography, 0104 chemical sciences, Analytical Chemistry, Matrix (chemical analysis), Ion Mobility Spectrometry, Calibration, Spectroscopy

Abstract

Rationale Mass spectrometry (MS) is the reference method for the screening of ultra-trace residues of pesticides in food because MS offers the required selectivity/sensitivity to gather information and enable the analyst to make informed decisions during the identification process. Here we present and discuss the use of collision cross section (CCS) values in addition to mass accuracy and retention times in a pesticide screening method that integrates all the features offered by coupling ultra-performance liquid chromatography (UPLC) with ion mobility mass spectrometry (IMS-MS). Methods All experiments were carried out using UHPLC coupled to a travelling wave ion mobility mass spectrometer equipped with an electrospray ionization (ESI) source working in positive mode. An in-house library containing 200 pesticides was built using standard solutions and used as reference for a TWCCS calibration study. Matrix extracts were analyzed to evaluate the performance of different screening workflows based on TWCCS, mass accuracy and retention times. Results The results proved that TWCCS values are very consistent, as the measured values do not differ more than 1% from the in-house reference data library and emphasized the importance of the first low m/z mobility calibration point to guarantee full independence from instrument parameters and calibrant. The screening procedure was simplified to a single step by fully exploiting the content of ion mobility without generating any false detections, either positive or negative, from spiked samples and a previous proficiency test. Conclusions The screening approach proposed in this study is unconventional and based on large mass accuracy (20 ppm) and retention time windows (0.5 min) to capture, in a first step, a maximum of detected compounds. Compounds of interest are then identified by comparing measured collision cross sections with the measured reference library collision cross sections (with relative error tolerance lower than 2%).

Published

2019

50. Fundamental Studies on Poly(2-oxazoline) Side Chain Isomers Using Tandem Mass Spectrometry and Ion Mobility-Mass Spectrometry

Author

Johann Far, Victor Retamero De La Rosa, Edwin De Pauw, Richard Hoogenboom, Philippe Massonnet, and Jean Haler

Subjects

Molar mass, Collision-induced dissociation, Ion-mobility spectrometry, Chemistry, 010401 analytical chemistry, Analytical chemistry, Degree of polymerization, 010402 general chemistry, Tandem mass spectrometry, Mass spectrometry, 01 natural sciences, Dissociation (chemistry), 0104 chemical sciences, Ion, Structural Biology, Spectroscopy

Abstract

When polymer mixtures become increasingly complex, the conventional analysis techniques become insufficient for complete characterization. Mass spectrometric techniques can satisfy this increasing demand for detailed sample characterization. Even though isobaric polymers are indistinguishable using simple mass spectrometry (MS) analyses, more advanced techniques such as tandem MS (MS/MS) or ion mobility (IM) can be used. Here, we report proof of concept for characterizing isomeric polymers, namely poly(2-n-propyl-2-oxazoline) (Pn-PrOx) and poly(2-isopropyl-2-oxazoline) (Pi-PrOx), using MS/MS and IM-MS. Pi-PrOx ions lose in intensity at higher accelerating voltages than Pn-PrOx ions during collision-induced dissociation (CID) MS/MS experiments. A Pn/i-PrOx mixture could also be titrated using survival yield calculations of either precursor ions or cation ejection species. IM-MS yielded shape differences in the degree of polymerization (DP) regions showing the structural rearrangements. Combined MS techniques are thus able to identify and deconvolute the molar mass distributions of the two isomers in a mixture. Finally, the MS/MS and IM-MS behaviors are compared for interpretation. Graphical Abstract .

Published

2019